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      <title>Remake of Topic 2: Science and Pseudoscience by Masyitah Mahadi</title>
      <link>https://padlet.com/masyitah_mmu/ALL_1810</link>
      <description>Design an experimental controlled study for any hypothesis. State your hypothesis and show the step-by-step procedures in conducting the experiment.</description>
      <language>en-us</language>
      <pubDate>2018-08-16 09:40:15 UTC</pubDate>
      <lastBuildDate>2025-11-18 21:49:55 UTC</lastBuildDate>
      <webMaster>hello@padlet.com</webMaster>
      <image>
         <url>https://padlet-assets.s3.amazonaws.com/icons/Lightdecrease.png</url>
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      <item>
         <title>LM01 Gan Qian Han (1171103286）</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273453888</link>
         <description><![CDATA[<div>Do a experiment for study<br>Hypothesis: A reaction of good student after go to the last class<br>Steps:<br>1) a good student come in the last class<br>2) everyone in the last class was lazy and do their own things, didn’t want to listen to the teacher&nbsp;<br>3) the good student will felt uncomfortable for being good and start to being bad to get in that last class&nbsp;<br>4) at last, the good student becomes a bad student just like other&nbsp;<br>This experiment show that a person would felt uncomfortable when other people act not like them. He will try to act like them although he thinks that he and the other are doing the wrong things. But, he want to be same with other, so he also done the wrong things&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-16 12:02:35 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273453888</guid>
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      <item>
         <title></title>
         <author>1181100461</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273723381</link>
         <description><![CDATA[LM01 Gan Qian Han (1171103276)
LM01 Gan Qian Han (1171103276)
Do a experiment for study
1) a good student come in the last class
2) everyone in the last class was lazy and do their own things, didn’t want to listen to the teacher 
3) the good student will felt uncomfortable for being good and start to being bad to get in that last class 
4) at last, the good student becomes a bad student just like other 
This experiment show that a person would felt uncomfortable when other people act not like them. He will try to act like them although he thinks that he and the other are doing the wrong things. But, he want to be same with other, so he also done the wrong things 
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         <enclosure url="" />
         <pubDate>2018-08-17 14:30:45 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273723381</guid>
      </item>
      <item>
         <title>LM01 Liang Hui Li (1171103330</title>
         <author>1171103330</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273894579</link>
         <description><![CDATA[<div>Hypothesis:The amount of water given would effect the growth of plant.<br>&nbsp;Steps:<br>&nbsp;1)Prepare two flower pot , each flower pot contains the same amount and type of soil.<br>2)Put 10 bean seeds into each flower pot.<br>3)Place both of the flower pot in the same window.<br>4)Flower pot A would be watered everyday in the morning while flower pot B would not get watered.<br>5)Observe the result after one month.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-19 08:35:22 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273894579</guid>
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      <item>
         <title>LM01 Low Siew Hui 1171103394 </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273901515</link>
         <description><![CDATA[<div>Hypothesis:The battery would effect the function to light bulb<br>Steps:<br>1)Prepare two battery, battery A have function, battery B have no function&nbsp;<br>2)Put each battery in each light bulb.<br>3)Open the suis<br>4)Observe the result after the experience and record it. </div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-19 11:17:16 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273901515</guid>
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      <item>
         <title>Pendy Tok (1181101110)</title>
         <author>1181101110</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273902660</link>
         <description><![CDATA[<div>Hypothesis: Living environment affects the rate of survival in nature.<br><br>Steps:<br>1. Randomly select 40 bunnies and divide them into 2 groups which are Group A and Group B regardless of colour and variety.<br>2. Both groups are treated exactly alike, except the living environment. Group A lives under humans' care while Group B lives in wildlife sanctuary. <br>3. Both groups' conditions are under control by injecting bioelectronic chips into the bunnies to ensure the survival of bunnies before the experiment starts.<br>4. After half a year of preparation, all the bunnies have grown up. Both groups are released to the wild.<br>5. Observations on the survival of rabbits in long duration are recorded.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-19 11:56:36 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273902660</guid>
      </item>
      <item>
         <title>LM01 Er Pei Ling (1171103502)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273902781</link>
         <description><![CDATA[<div>Hypothesis: Impurities would effect the boiling point of water.<br>Steps:<br>1) Prepare the two beakers which contain the distilled water and labelled them as Beaker A and Beaker B.<br>2) Add common salt into the Beaker A, while the Beaker B remains unchanged.<br>3）Heat the Beaker A and Beaker B until them boil.<br>4) Record the boiling point of the Beaker A which contains the mixture of distilled water and the common salt, and also record the boiling point of the Beaker B which is just containing the distilled water.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-19 11:58:47 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273902781</guid>
      </item>
      <item>
         <title>Bok Hui Ling ( 1181100160 )</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273903906</link>
         <description><![CDATA[<div>Hypothesis: Music would affect dog’s behavior<br><br>Steps:<br>1)&nbsp; &nbsp; &nbsp;Randomly selected 40 dogs and divided them into two groups.</div><div>2)&nbsp; &nbsp; &nbsp;Experiment are carried out in same location, with the same lighting, furniture, and conditions every time.</div><div>3)&nbsp; &nbsp; &nbsp;A group of dogs are tested with music.</div><div>4)&nbsp; &nbsp; &nbsp;The control group would be used to set a baseline behavior, and how dogs behaved without music.</div><div>5)&nbsp; &nbsp; &nbsp;The other group could then be observed and the differences in group’s behavior could be analysed.</div><div>6)&nbsp; &nbsp; &nbsp;It was found that dogs do show more relaxed and calm behaviors when specific type of music plays.<br><br></div><div><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-19 12:27:49 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273903906</guid>
      </item>
      <item>
         <title>Lim Yu Jie(1181101201)</title>
         <author>1181101201</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273905769</link>
         <description><![CDATA[<div>Hypothesis : <strong>The greater the heat supplied to water of fixed mass, the greater the rise in temperature of water.</strong></div><div> </div><div>Steps:</div><div>1) Prepare 0.5l of water in a kettle and put it on induction cooker.<br><br></div><div>2) Measure the initial temperature of water by using thermometer.<br><br></div><div>3) Then, press the start button and Increase the temperature of the cooker to 50 <sup>0</sup>C to boil the water.<br><br></div><div>4) After 5 minutes, stop the cooker and quickly measure the final temperature of water. Then calculate the rise in temperature of water.<br><br></div><div>5) Repeat the experiment by increasing the temperature level of cooker to 60 <sup>0</sup>C, 70 <sup>0</sup>C and 80 <sup>0</sup>C with constant volume of water and time taken.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-19 13:09:28 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273905769</guid>
      </item>
      <item>
         <title>LM01 1171103153 Tham Jie Shi</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273908601</link>
         <description><![CDATA[<div>Hypothesis:Lemon is acidic enough to carry an electric charge and act as a battery</div><div>Steps:</div><div>1)Prepare two lemons,a sharp knife,three 4'' pieces of copper wire,six alligator clips,1.5V mini light bulb and holder,Galvanized nail (nail covered in zinc),and penny or thick copper wire.</div><div>2)Carefully use a sharp knife to cut two slits in each lemon about 1/2'' deep. Make sure that the inside of the lemons are exposed. If the skin is thick, make the insertion deeper until the fruit is exposed.</div><div>3)Insert the copper wire or penny into one slit and the nail into the other slit for each lemon.</div><div>4)Attach an alligator clip to each end of each piece of wire.</div><div>5)Attach one end of the first wire to the nail in the first lemon. Attach the other end of this wire to the light bulb.</div><div>6)Connect a second wire from the copper wire in the second lemon to the light bulb.</div><div>7)Lastly, using the third wire, connect the nail in the second lemon to the copper wire in the first lemon.</div><div>8)Observe what happens to the light bulb.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-19 14:12:28 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273908601</guid>
      </item>
      <item>
         <title> LM01 </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273911647</link>
         <description><![CDATA[<div><strong>1171103400<br>Ng Qing Ya<br></strong>Hypothesis: While doing revision listening to music will affect learning progress.<br><br>1. Randomly select 50 students from one class.<br><br>2. Randomly divide them into two groups: one group leave them studying while listening to music, the next group just studying in a quiet place.<br><br>3. After that, let all of them taking a quiz.<br><br>4. Result show that the group of students who study in a quite place were getting a better exam grade than students study while listening to music.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-19 15:20:31 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273911647</guid>
      </item>
      <item>
         <title>Angelina Chow (1181100481)</title>
         <author>shaktirubinee58</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273911879</link>
         <description><![CDATA[<div>Hypothesis : Plants grow healthily in a complete Knop's solution.<br>Steps :<br>1) Randomly select 40 maize seedlings regardless of seedlings' size and species and divide them into Group A and Group B.<br>2) Place the maize seedlings into glass jars which are connected to an air pump to provide aeration to the roots so that respiration can take place.<br>3) Fill the jars of Group A with Knop's solution without magnesium and Group B with complete Knop's solution (Containing all the nutrients needed by plants).<br>4) Wrap the glass jars with black paper to prevent the growth of green algae which will deplete the nutrient content and affect the experiment.<br>5) Replace both solutions every week to replenish the nutrients absorbed by the maize seedlings.<br>6) Treat both groups exactly the same in terms of the volume of solutions given, place of experiment and etc except for the type of Knop's solutions<br>7) Record all observations on the growth of each plants in both groups after one month.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-19 15:27:12 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273911879</guid>
      </item>
      <item>
         <title>Nur Sarah Najihah Binti Nor Alahyadi,T2A (1181101195)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273913011</link>
         <description><![CDATA[<div>Hypothesis:<strong> Volcanic clay mask actually works in tightening skin pores.<br></strong><br></div><div>1)&nbsp; &nbsp; &nbsp; Randomly select a large number of people from the whole population who has big pores</div><div>2)&nbsp; &nbsp; &nbsp; Randomly divide them into 2 groups; an experimental group and a control group.</div><div>3)&nbsp; &nbsp; &nbsp; Treat the two groups exactly the same (giving skin treatment using masks) except that I give the experimental group treatments with volcanic clay mask and I give the control group a placebo, that is, regular clay masks that do not have anything beneficial to pores and skin.</div><div>4)&nbsp; &nbsp; &nbsp; Conduct the study double-blind. That is, I make sure that neither the dermatologists nor the subjects know which of the subjects is getting the volcanic clay mask and which is getting the placebo.</div><div>5)&nbsp; &nbsp; &nbsp; The experiment was handled for 2 weeks and the subjects were not allowed to use any other skincare products to actually see if the volcanic clay mask works.</div><div>6)&nbsp; &nbsp; &nbsp; After two weeks, the progress of subjects’ skins were examined. If the experimental group skins’ pores are tighten and the skins’ condition were better than the controlled group, it can be concluded that volcanic clay mask actually helps in tightening skin pores.<br><br></div>]]></description>
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         <pubDate>2018-08-19 15:53:51 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273913011</guid>
      </item>
      <item>
         <title>Yap Jin Hong - 1181100731</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273951312</link>
         <description><![CDATA[<div>(T1A)<br>Hypothesis:<strong>The rate of transpiration in a leafy shoot is higher than the rate of transpiration in a shoot without leaves</strong>.<br><br>1. Cut a balsam shoot under water to prevent air from entering the xylem.<br><br>2. Fill potometer with water,make sure no air bubble inside and insert balsam shoot through under water.<br><br>3. Open tap of water reservoir to fill the graduated capillary tube with water.<br><br>4. The air bubbles move from B to A when transpiration occur.<br><br>5. The experiment can repeated a few times to find the average reading for rate of transpiration</div>]]></description>
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         <pubDate>2018-08-20 01:18:47 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273951312</guid>
      </item>
      <item>
         <title>LM 01 Russel Lim Feng Han (1171103424)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273955630</link>
         <description><![CDATA[<div>Hypothesis: Aerobic exercise are healthy way to help loss weight<br>Step:<br>1.	Randomly select 100 students from the collage which weight between 58kg to 68 kg<br>2.	Evenly divide 100 of students into two group, experimental group and control group<br>3.	Experimental Group will joining an aerobic program for a month and control group will be taking weight loss supplement for a month<br>4.	After one month , carry out a test which include weight ,BMI ,body fat content test.<br>5.	The result show both group have significantly loss weight but the control group may facing side effect for using fat loss supplement, so the result show aerobic exercise are more healthy in term to loss weight<br><br></div>]]></description>
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         <pubDate>2018-08-20 01:56:24 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273955630</guid>
      </item>
      <item>
         <title>LM01</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273959082</link>
         <description><![CDATA[<div>Ong Jing Song 1171103047<br>Hypothesis : Using artificial light will affect the growth on plant.<br><br></div><ol><li>Put potting soil into the 2 plant pots, and bury a bean seed under half an inch of soil in each pot.</li><li>Mist the soil gently so that the beans have water.</li><li>Place 1 plant in a box.</li><li>Put the light bulb in the desk lamp.</li><li>Place the lamp over the box so that the light does not escape from the box. Make sure that it is not touching any paper!</li><li>Turn the light on every morning and turn  off every evening.</li><li>Place your second bean seed in a sunny window. Make sure that the soil stays damp, but not too wet.</li><li>After a week, you will likely see a sprout coming out of the soil. Wait for another week or more, then turn on the light in the room and take a photo of each bean plant. Label the photos with the type of light the plant received. </li><li>Wait for two weeks or more, then take a photo of each plant and observe what has happen to each plant</li></ol>]]></description>
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         <pubDate>2018-08-20 02:23:52 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273959082</guid>
      </item>
      <item>
         <title>LM01 Ong Jie Ying (1171103488)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273968477</link>
         <description><![CDATA[<div>Hypothesis: The air from different environments does not contain the same amount of solid pollutants.</div><div>&nbsp;</div><div>Steps :&nbsp;</div><div>1) Prepare 5 slides and label A, B, C, D and E.</div><div>2) A piece of cellophane tape with adhesive surface facing upward is stuck on each side.&nbsp;</div><div>3) Place the slide at five spots in five different types of environments.</div><div>   a) Slide A - place in a closed Petri dish&nbsp;</div><div>   b) Slide B - place in an open field</div><div>   c) Slide C - place in a classroom&nbsp;</div><div>   d) Slide D - place in an air-conditioned  room&nbsp;</div><div>   e) Slide E - attach it to a lamp post in a car park&nbsp;</div><div>4) All slides are left aside for a week.&nbsp;</div><div>5) All slide are collected after one week and each viewed under a microscope using a low power.</div><div>6) Record the observation in a table.</div>]]></description>
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         <pubDate>2018-08-20 03:50:46 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273968477</guid>
      </item>
      <item>
         <title>LM 01 Elaine Khoo Sue Mae</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273974307</link>
         <description><![CDATA[<div>(1171103416)<br>Hypothesis: The angle of reflection is equal to the angle of incidence<br>Steps:<br>1) A ripple tank is set up.<br>2) A plane reflector is placed in the middle of the tank so that it is parallel witg the incident wavefronts.The reflected waves are observed through a stroboscope.<br>3)The reflector is then adjusted so that the incident was approached the reflector at incident angles of 20°,40°,60°.<br>4)The wavelength of the incident and reflected waves are observed as compared.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 04:40:53 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273974307</guid>
      </item>
      <item>
         <title>LM01 Lim Hui Ying</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273975194</link>
         <description><![CDATA[<div>(1171103523)<br>Hypothesis : The longer the wire, the higher the resistance.<br>1.A eureka wire is connected in the circuit as shown in the diagram.<br>2.The length of the wire between X and Y is adjusted to 20 cm.<br>3.The switch is closed and the rheostat is adjusted until the ammeter reading , I is 0.5A.The voltmeter reading is recorded.<br>4.Step 3 is repeated for wire lengths 40cm,60cm,80cm and 100cm.<br>5.The resistant ,R =V/I is calculated for each length.<br>6.A graph of R against&nbsp;I is plotted.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 04:49:10 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273975194</guid>
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      <item>
         <title>LM02 Chua Kai Ying (1171103782)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273975348</link>
         <description><![CDATA[<div>Hypothesis: The longer the length of a simple pendulum, the longer the period of oscillation.<br><br>Steps:<br>1) The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum is measured to 80cm.<br>2) With the thread taut and the bob at the rest, the bob is lifted at a small amplitude(not more than 10°)Ensure the pendulum swings in a single plane.<br>3) The time for ten complete oscillations of the pendulum is measured using the stopwatch.<br>4) Step 3 is repeated and the average of both readings are calculated.<br>5) The period of oscillation, T is calculated using the average reading divided by the number of oscillations.<br>6) T² is calculated by squaring the value of T.<br>7) Step 1 to 6 are repeated using the length of 70cm, 60cm, 50cm and 40cm.<br>8) A graph is plotted.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 04:51:08 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273975348</guid>
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      <item>
         <title>Inclined Planet </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273986449</link>
         <description><![CDATA[<div>Hypothesis : The larger the angle of incline , the higher the velocity just before reaching the end of the runway</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 06:47:18 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273986449</guid>
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      <item>
         <title>1171103555 (Kuan Kah Ming)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273986795</link>
         <description><![CDATA[<div>Hypothesis: When the length of the pendulum increase, the oscillation time increase<br>Experiment procedure:<br>1. Two thread are prepare with length of 5cm and 10cm<br>2. A pendulum is attach to the 5cm thread on retort stand.<br>3. The pendulum is pull to the height of 50cm measured from the meter rule behind the retort stand.<br>5. The pendulum usb released and the time of oscillation is recorded.<br>6. The result are recorded.<br>7. Tabulate the data.<br>8. Step 1 until 7 is repeated with the thread of 10cm<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 06:50:21 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273986795</guid>
      </item>
      <item>
         <title>Inclined Planes</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273986879</link>
         <description><![CDATA[<div>Hypothesis: The larger the angle of incline, the higher the velocity before reaching the end of the runway.<br>Aim: To study&nbsp;the relationship between the </div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 06:50:52 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273986879</guid>
      </item>
      <item>
         <title>LM01 </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273987686</link>
         <description><![CDATA[<div>1171103443<br>Leom Teng Xiang<br>Hypothesis: The angle of reflection is equal to the angle of incidence.<br>Steps:<br>1. A ripple tank is set up.<br>2. A plane reflector is place in the middle of the tank so that it is parallel with the incident wavefronts. The reflected waves are observed through the stroboscope.&nbsp;<br>3. The reflector is then adjusted so that the incident waves approach the reflector at incident angle of 20°, 40°, 60° and 80°. For each situation, the reflected angle is observed.<br>4. The wavelegth of incident length and reflected waves are observed and compared.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 06:57:37 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273987686</guid>
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      <item>
         <title>1171103778 Cristy Fo Hui Chi </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273990103</link>
         <description><![CDATA[<div>Hypothesis: Gases expand when heated.<br>Steps :</div><ol><li>Use a pair of scissors to make a hole in the top of the bottle lid, big enough for the drinking straw to fit through.</li><li>Fill the bottle halfway with cold water.</li><li>Add a few drops of food colouring and mix.</li><li>Screw on the bottle lid and insert the straw through it into the water, making sure that the straw does not touch the base of the bottle.</li><li>Seal around the hole in the lid using play dough, thereby fixing the straw in place. The seal must be completely airtight.</li></ol><div><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 07:14:40 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273990103</guid>
      </item>
      <item>
         <title>LM01 TAN YING HUI </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273992721</link>
         <description><![CDATA[<div>1171103826<br>Hypothesis : The potential difference across the terminals of dry cells decrease when the current supplied by the cells increase&nbsp;<br>procedure:<br>1.A circuit as shown in the diagram above is set up.&nbsp;<br>2.The switch is started. The rheostat is adjusted until the ammeter reading shows 0.2A.&nbsp;<br>3.Step 2 is repeated with current values of 0.3A, 0.4A, and 0.5A.&nbsp;<br>4.A graph of V against I is plotted. The slope of the graph is calculated and the V-crossing is extrapolated. </div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 07:36:48 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273992721</guid>
      </item>
      <item>
         <title>Lm01 Jane Lee Le Xuan 1171103547</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273993074</link>
         <description><![CDATA[<div>Hypothesis:<br>During the change of state of naphthalene from liquid to solid,there is no change in temperature.<br><br>1. The apparatus set up as shown in the diagram.<br>2. The naphthalene is heated until the temperature reaches 95°C.<br>3. The boiling tube is then removed from the water bath and the outer part of the tube is dried.<br>4. The temperature of the naphthalene is recorded every minutes until the temperature drops to about 60°C<br>5. A graph of temperature against time is drawn.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 07:40:15 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273993074</guid>
      </item>
      <item>
         <title>1171103531 Grace Ng Yee Lin</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273994437</link>
         <description><![CDATA[<div><strong>Hypothesis : Colour can help humans in memorizing process.&nbsp;<br></strong><br></div><div>(1) Prepare 4 copies of 50-70 words reading material with similar content but different colour of words<br>&nbsp;<strong>Copy A and B</strong> : words in black colour<br><strong>&nbsp;Copy C and D</strong> : words in different colours&nbsp;<br><br></div><div>(2) Find 4 peoples of the same age.&nbsp;<br><br></div><div>(3) Let four of them to memorize the material in 15 minutes.&nbsp;<br><br></div><div>(4) After 15 minutes, ask them to read out the content without looking at the material.&nbsp;<br><br></div><div>(5) Determine who can remember more.&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 07:56:50 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273994437</guid>
      </item>
      <item>
         <title>Annie Tan Sin Ling 1171103790 Hyphotesis : Presence of impurities will increase the boiling point of distilled water</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/273998591</link>
         <description><![CDATA[<div>1. Pour 100cm³ of distilled water into a beaker<br>2. Heat up distilled water until it boils<br>3. Observe and record the boiling point by using thermometer<br>4. Repeat the experiment with mixture of distilled water and salt<br>5. You will observe that the boiling pointof mixture water and salt increase</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 08:32:34 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/273998591</guid>
      </item>
      <item>
         <title>HO WAN ER (1171103834)Hypothesis: Words are read faster than colors are named.</title>
         <author>waner6151</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274003441</link>
         <description><![CDATA[<div>Steps:<br><br>1. Prepare a list of words of colors and printed with different color. For examples, word "RED" but printed in yellow color.<br>2. Find two person of same age and same gender.<br>3. Give them the list of words.<br>4. Ask them to say the colors of the words instead of read the words as fast as they can.<br>5. Calculate the time they needed to say all the color correctly.<br>6. Determine whether they can say the color of words without hesitation.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 09:08:45 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274003441</guid>
      </item>
      <item>
         <title>Tan Siong Kai 1171103861</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274004829</link>
         <description><![CDATA[<div>Hypothesis: Salt can increase the boiling point and&nbsp; the freezing point of the water.<br><br>1.Prepare the apparatus needed such as ice, bunsen&nbsp; burner, beaker , tripod stand ,thermometer, salt,resistance thermometer and water.<br>2.Half fill the beaker with water and boil it with bunsen burner on the tripod stand.Observe and record the maximum temperature.<br>3.Put some salt into a beaker which half fill with water and boil it.Record the maximum temperature it can acheive.<br>4.Pour the water into the beaker fill with ice .Observe and record the final temperature by thermometer.<br>5.Put some salt into the beaker fill with ice and water.Record the final temperature acheive by the resistance thermometer.<br><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 09:21:10 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274004829</guid>
      </item>
      <item>
         <title>LM02 NG YIN YEN(1171103495)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274004887</link>
         <description><![CDATA[<div>Hypothesis:The total momentum before collision is equal to the total momentum after collision,provided there are no external forces acting on the system.<br>Step:<br>1.The apparatus is set up as shown in the diagram.<br>2.Two trolleys A and B of equal mass are placed in contact with each other on an even and smooth surface.Two wooden blocks are placed on the same row at the end of each trolley respectively.<br>3.The vertical trigger on trolley B is given a light tap to release the spring-loaded piston which then pushes the trolleys apart.The trolleys collide with the wooden blocks.<br>4.The positions of the wooden blocks are adjusted so that both the trolleys collide with them at the same time.<br>5.The distances, Da and Db are measured and recorded.<br>6.The experiment is repeated with different masses of trolleys.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 09:21:41 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274004887</guid>
      </item>
      <item>
         <title>1171103274(NG JIA XUAN)</title>
         <author>xuanxuan27feb</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274009576</link>
         <description><![CDATA[<div>Hypothesis: If more water was be taken, more urine will be released.<br><br>STEP:<br>1. Choose two students and instruct them to empty their bladders before experiment start.<br>2. Give student A 400 ml and student B 800 ml&nbsp; of mineral water to drink.<br>3. Start the stop watch immediately after consuming the water.<br>4. Instruct the students not to eat or perform vigorous physical activity.<br>5. Ask the students empty their bladder after half an hour.<br>6. Collect the urine in a large beaker.<br>7. Measured the urine by using measuring cylinder.<br>8.Record the data collected into a table.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 10:12:06 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274009576</guid>
      </item>
      <item>
         <title>SAMIA NADEEM (1171103189)</title>
         <author>1171103189</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274011108</link>
         <description><![CDATA[<div>Hypothesis: Plants need light to grow<br><br>1. Fill 6 pots with soil.<br>2. Plant one bean seed in each pot. Make sure you gently cover each seed with a shallow layer of soil.<br>3. Place three of the pots outside in a spot that receives lots of sunshine. If the weather is too stormy or overcast, position the pots under a grow light.<br>4. Place the remaining three pots in a dark cupboard.<br>5. Spray all your planted seeds gently with a mister.<br>6. Now it's time to wait. To get the best results, you'll want to observe your seeds for at least three weeks. Make sure you use the mister every couple of days.<br>7. At the end of each week, take a close look at each of your pots.<br>8.Once a full three weeks have passed,did the absence of light make a difference?</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 10:27:25 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274011108</guid>
      </item>
      <item>
         <title>Shaun Lee Xuan Feng (1181101402)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274032112</link>
         <description><![CDATA[<div>Hypothesis : Detergent can remove scum with hard water.<br><br>1. Prepare 2 cloths with stain.<br>2. Fill 2 basin with 1000ml of hard water and 1000 ml of soft water respectively.<br>3. Place a cloth into each basin and leave it for a minute.<br>4. Pour 100ml of detergent and 100ml of soap into each basin respectively.<br>5. Stir the mixture well.<br>6. Leave it for 30 minutes.<br>7. Record the observations in a table.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 12:54:31 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274032112</guid>
      </item>
      <item>
         <title>Lau Xin Lin (1171103689)</title>
         <author>1171103689</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274033493</link>
         <description><![CDATA[<div><strong>Hypothesis: <br></strong>Slime is made from white craft glue and liquid starch.<br><br><strong>Steps:<br></strong>1.<strong> </strong>&nbsp;Pour all of the the glue into the mixing bowl.<br><br>2. Pour all of the water to the mixing bowl with the glue.<br><br>3. Stir the glue and water together.<br><br>4. Add your food color (about 6 drops).<br><br>5. Now add the liquid starch and stir it in.<br><br>6. As you play with your slimy concoction, it will become more stretchy and easier to hold.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 13:01:41 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274033493</guid>
      </item>
      <item>
         <title>Grace Goh Man Jing (1171103751</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274048857</link>
         <description><![CDATA[<div>Hypothesis: Vinegar will affect the fruits to last longer&nbsp;<br><br>Steps: 1) Prepare the fruit you want to use, add vinegar into a pot and allow vinegar to come to a boil.<br>&nbsp;           2) Add salt ,chilli powder ,coarse brown sugar and continue to boil.<br>            3) Add dried fruit to mixture and allow to boil for few minutes until mixture thickens.Stir continuously to avoid burning or scorching.<br>            4)Remove from stove and allow to cool before bottling.<br>            5) Store in refrigerator. After 1 week , you can find that the fruits still not rancid and still can eat.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 13:57:40 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274048857</guid>
      </item>
      <item>
         <title>1181101768 (Loong Jiehyi) </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274049222</link>
         <description><![CDATA[<div>Hypothesis:The greater the mass, the greater the inertia.&nbsp;<br>Steps:<br>1. One end of jigsaw blade is clamped to the leg of the table using a G-shaped clamp.&nbsp;<br>2.A 20g of plasticine ball is fixed at the free end of the blade.&nbsp;<br>3.The free end of the blade is displaced horizontally and released so that it oscillates. The time for 10 complete oscillation is measured using stopwatch and this step is repeated 2 times.The average for 10 complete oscillation is calculated. Then the period of oscillation is determined.&nbsp;<br>4.Steps 2 &amp; 3 are repeated by replacing 20g of plasticine ball with masses of 40g,60g,80g,and 100g.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 13:58:41 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274049222</guid>
      </item>
      <item>
         <title>Seet Wan Ting (1181100261)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274059656</link>
         <description><![CDATA[<div>Hypothesis: Antibiotic can penicillin kills bacteria.<br>Steps:<br>1:Using sterile petri dishes and nutrient agar, set up two petri dishes A and B.<br>2:Then contaminate the nutrient agar by adding a little culture of Bacillus subtilis in each dish and swirl the dishes to spread out the culture solution evenly.<br>3:Place a penicillin tablet in the middle of dish A.<br>4:Tape the two dishes with sellotape. Invert the dishes and incubate the bacteria at room temperature for 2 days.<br>5:Observe the two dishes after 2 days.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 14:33:34 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274059656</guid>
      </item>
      <item>
         <title>LOH ZHI XIN(LM01)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274061312</link>
         <description><![CDATA[<div>1171103122<br>Hypothesis: The longer the length of a simple pendulum, the longer the period of oscillation&nbsp;<br>Steps:&nbsp;</div><ol><li>The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum, <em>l </em>is measured to 80 cm as per the diagram.</li><li>With the thread taut and the bob at rest, the bob is lifted at a small amplitude (of not more than 10°). Ensure that the pendulum swings in a single plane.</li><li>The time for ten complete oscillations of the pendulum is measured using the stopwatch.</li><li>Step 3 is repeated, and the average of both readings are calculated.</li><li>The period of oscillation, <em>T i</em>s calculated using the average reading divided by the number of oscillations, i.e. 10.</li><li><em>T2</em> is calculated by squaring the value of <em>T.</em></li><li>Steps 1 to 6 are repeated using<em> l =</em> 70 cm, 60 cm, 50 cm, and 40 cm.</li><li>A graph <em>T2</em> versus <em>l</em> is plotted.&nbsp;</li></ol>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 14:38:17 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274061312</guid>
      </item>
      <item>
         <title>Tan Zhe Wen 1171103472</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274075175</link>
         <description><![CDATA[<div>Hypothesis:<br>&nbsp;the larger the surface area the more diffusion can occur.<br>Steps:<br>&nbsp;<strong>1- </strong>Cut the agar into five different-sized cubes (from 2mm to 10mm) using a sharp razor and calipers on a white tile<br><strong>2- </strong>Add 5cm3 of&nbsp; 1M of hydrochloric acid to each of the boiling tubes and label the boiling tubes with the size of the agar cube<br><strong>3- </strong>Manipulate the cubes into the boiling tube and start the stopwatch on contact of acid and agar. Make sure to not touch the cube as liquid make diffuse in or out of the agar on touch<br>4- Stop the stopwatch when the cube goes a light orange from a dark brown / orange in the cube<br><strong>5- </strong>Record the results and plot a graph&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 15:23:34 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274075175</guid>
      </item>
      <item>
         <title>Sim Shin Xuan 1181101676</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274078337</link>
         <description><![CDATA[<div><strong>Hypothesis</strong>: Human height is a continuous variation.<br><strong>Steps</strong><br>1) 5 student is randomly selected in the class.<br>2) The height of each student in the class is measured and recorded.<br>3)The reslult is then grouped into different ranges.</div><div>4)A histogram for the number of students against height is drawn.</div><div>5)A curve is drawn joining the midpoint of the top of each box to form a normal curve .</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 15:34:02 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274078337</guid>
      </item>
      <item>
         <title>TAN XIN YEE (1171103467)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274081883</link>
         <description><![CDATA[<div>Hypothesis : Pure iron rust faster than steel while stainless steel does not rust easily.<br><br></div><div>Steps: <br>1.Three test tubes are half-filled with jelly solution and are labelled as A,B and C.<br><br>2. 1cm<sup>3</sup> of potassium hexacyanoferrate&nbsp; (III) solution is added to every test tube.<br>&nbsp;<br>3. An iron nail, a steel&nbsp; nail and a stainless steel nail are polished with sandpaper to remove any rust formed. Then nails are then placed in the three test tubes labelled A,B and C respectively<br><br></div><div>4. All three test tubes are allowed to stand for 5 days before they are examined.&nbsp;<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 15:46:19 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274081883</guid>
      </item>
      <item>
         <title>Goh Wei Xuan 1171103226</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274092291</link>
         <description><![CDATA[<div>Hypothesis:<br>The balloon become bigger.<br>Steps:</div><ol><li>Carefully pour the vinegar into the bottle.</li><li>This is the tricky part: Loosen up the balloon by stretching it a few times and then use the funnel to fill it a bit more than half way with baking soda. If you don’t have a funnel you can make one using the paper and some tape.</li><li>Now carefully put the neck of the balloon all the way over the neck of the bottle without letting any baking soda into the bottle.</li><li>&nbsp;Lift the balloon up so that the baking soda falls from the balloon into the bottle and mixes with the vinegar. Watch the fizz-inflator at work!</li></ol>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-20 16:24:28 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274092291</guid>
      </item>
      <item>
         <title>Soh Chun Wei (1181100955)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274184162</link>
         <description><![CDATA[<div>Do an experiment to study&nbsp;<br>Hypothesis : How many sugar percaentage in our unrine ?<br><br>1.Take 2 ml urine sample in a measuring cylinder from the urine sample bottle.<br>2.Take a test tube and pour the urine sample in it.<br>3.Take 5 ml Benedict’s reagent in a measuring cylinder.<br>4.Add Benedict’s reagent to the test tube that contains urine sample.<br>5.Using a test tube holder, hold the test tube firmly and heat it for 2 minutes on the burner.<br>6.Keep shaking the test tube while heating.<br>7.A yellow precipitate appears which indicates the presence of sugar in urine.<br>8.Depending upon the concentration of sugar in the urine, either green, yellow, or brick red precipitates are formed.&nbsp;</div><div><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 00:10:22 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274184162</guid>
      </item>
      <item>
         <title>117</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274192005</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 01:11:55 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274192005</guid>
      </item>
      <item>
         <title>HEW ZHONG KEN (1181101119)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274196207</link>
         <description><![CDATA[<div>hypothesis : As the sucrose solution reach certain concentration (isotonic to the cell sap).there is no changes in the length of potato strip<br><br>steps:<br>1.six test tube are labelled P Q R.S,T and U.<br>&nbsp;2.Test tube P is filled with 10ml distilled water, test tube Q is filed with 10ml sucrose solution O 1M test tube R is filled with 10ml sucrose solution 0.2M test tube S is filled with 10ml sucrose solution 0,3MThs tube is filled with 10ml sucrose solution 0.4M and test tubes U is filled with 10ml sucrose solution 0.5M&nbsp;<br>3.The cork borer is pushed into the potato and the potato strip is obtained by pushing it out of the cork borer using a glass rod&nbsp;<br>4.The potato strips are cut to the exact length of 5 cm&nbsp;<br>5.One potato cylinder is placed in each labeled test tubes for 30 minutes&nbsp;<br>6. After 30 minutes the potato strips are removed from the test tube and gently wiped with filter paper&nbsp;<br>7 The final length of the potato strips are measured and record using a ruler&nbsp;<br>8. The final length of the potato strips are recorded in a result table&nbsp;.<br>9. A graph of the concentration of sucrose solution against the change in the length is plotted Presentation.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 01:42:23 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274196207</guid>
      </item>
      <item>
         <title></title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274205386</link>
         <description><![CDATA[ with stain.
2. Fill 2 basin with 1000ml of hard water and 1000 ml of so]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 02:38:51 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274205386</guid>
      </item>
      <item>
         <title></title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274205418</link>
         <description><![CDATA[e potential difference across the terminals of dry cells decrease w]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 02:39:07 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274205418</guid>
      </item>
      <item>
         <title></title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274205673</link>
         <description><![CDATA[c]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 02:40:57 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274205673</guid>
      </item>
      <item>
         <title>1181101480 Luwe Yee Jia</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274210656</link>
         <description><![CDATA[<div>Hypothesis: Does music have an affect on plant growth?<br><br>Steps:<br>1. Prepare two identical plants.&nbsp;<br>2. Separate the position of two plants.<br>3. Grow a plant with music playing every day, and another one without music playing.<br>4. Two weeks later, record the length and width of stem and the number of leaves of both plants.&nbsp;<br>5. If the plant with the music playing grew stronger and bigger, the hypothesis is accepted.&nbsp;</div><div><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 03:21:51 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274210656</guid>
      </item>
      <item>
         <title>1171103805 Tan Pei Kuan </title>
         <author>1171103805</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274212262</link>
         <description><![CDATA[<div><strong>Hypothesis: </strong>Guava juice contains a higher concentration of vitamin C compared to orange juice and pineapple juice.<strong><br><br>Steps:<br></strong>1. Label four boiling tube as A, B, C and D.</div><div>2. Place 1ml of DCPIP solution in each boiling tube.&nbsp;</div><div>3. Fill a syringe with 5ml of ascorbic acid solution.</div><div>4. Immerse the needle of the syringe in the DCPIP solution drop-by-drop.</div><div>5. Do not shake the tube vigorously.</div><div>6. Record the volume of ascorbic acid solution used to turn the DCPIP solution colourless using a syringe.</div><div>7. Repeat steps 2 to 7 using guava juice, pineapple juice and orange juice.</div><div>8. Calculate the percentage and concentration of vitamin C in these three types of fruit juice.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 03:37:30 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274212262</guid>
      </item>
      <item>
         <title>1181101874 (Erica, T3A)</title>
         <author>bluestar_mok</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274222740</link>
         <description><![CDATA[<div>Hypothesis: The larger the weight, the longer the spring extension.</div><div>&nbsp;</div><div>Steps:</div><div>1. The apparatus is setup as shown in the diagram.</div><div>2. The length of the spring without any weights, l0 is measured using the metre rule with the pin as reference.&nbsp;</div><div>3. A 50 g weight is hung from the bottom of the spring. The new length of the spring, l is measured. The spring extension is l – l0.</div><div>4. Step 4 is repeated with weights 100 g, 150 g, 200 g, and 250 g.</div><div>5. A graph of spring extension, x against weight, F is plotted.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 04:49:10 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274222740</guid>
      </item>
      <item>
         <title>1181100805 (Tan Zhan Jun</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274225350</link>
         <description><![CDATA[<div>Hypothesis: The diffusion of molecules through a semi-permeable membrane is based on the size of the molecules.<br><br>Steps:<br>1. A Visking tubing is soaked in water for a minute to soften it.&nbsp;<br>2. One end of the Visking tubing is tied firmly with a piece of cotton thread of prevent leakage.<br>3. The Visking tubing is filled with 5 ml of glucose solution and 5 ml of starch suspension.<br>4. The other end of the Visking tubing is tied with another piece of thread. The colour of the solution is recorded.<br>5. The outer surface of the Visking tubing is rinsed with distilled water.<br>6. 400 ml of distilled water and 15 ml of iodine solution are mixed in a beaker. The colour of solution is recorded.<br>7. The Visking tubing is immersed in the beaker of solution and left to stand for 40 minutes.<br>8. After 40 minutes, the Visking tubing is transferred to a dry beaker.<br>9. The colour of the solutions in the Visking tubing and the beaker is observed and recorded.<br>10. Both solutions are tested for the presence of glucose using Benedict's solution.<br>11. 2 ml of each solution are poured into separate test tubes and 1 ml of Benedict's solution is then added to each test tubes.<br>12. The solution is heated in a boiling bath for about 5 minutes and the change in colour is then recorded.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 05:16:49 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274225350</guid>
      </item>
      <item>
         <title>1181100721(Ong Han Bin,T1A)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274226435</link>
         <description><![CDATA[<div><strong>Hypothesis:</strong> The air from different environments does not contain the same amount of solid pollutants.<br><br><strong>Steps:</strong><br>1.Five slides are prepared and labelled A,B,C,D and E.<br>2.A piece of cellophane tape with the adhesive surface facing upwards is stuck on each slide.&nbsp;<br>3.The slides are&nbsp; placed at five spots in five different types of environments.<br> a)Slide A is placed in a closed Petri dish<br>b)Slide B is attached to a lamp post in a car park.<br>c)Slide C is placed in an open field.<br>d)Slide D is placed in a classroom.<br>e)Slide E is placed in an air-conditioned room.<br>4.All slides are left aside for a week.<br>5.All slides are collected after one week and each is viewed under a microscope using a low power.<br>6.The results is then be recorded.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 05:37:20 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274226435</guid>
      </item>
      <item>
         <title>1181100488 (Kuan Yong Qing, T1)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227041</link>
         <description><![CDATA[<div><strong>Hypothesis</strong>:&nbsp; <br>When the length, L, of a wire increases, its resistance, R, increases.<br><strong>Steps</strong>:&nbsp;<br>1. A 20.0 cm long eureka wire is connected between terminals X and Y.<br>2. Circuit is switched on and the rheostat is adjusted until the ammeter reading, is 0.5 A.<br>3. The reading, V, shown on the voltmeter is recorded.<br>4. The experiment is repeated using different lengths of eureka wire, L = 40.0 cm, 60.0 cm, 80.0 cm, and 100.0 cm.<br>5. Resistance, R, of the wire is calculated.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 05:44:38 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227041</guid>
      </item>
      <item>
         <title>1181100235(LOW QZHI YEE,T1A)</title>
         <author>1181100425</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227285</link>
         <description><![CDATA[<div>Hypothesis:The presence of manganese(IV) oxide catalyst increase the rate of decomposition of hydrogen peroxide<br>Steps:<br>1)Fill water in the burette until it s full<br>2)Invert the burette in a basin of water and clamp the burette vertically<br>3)Adjust the water level in te burette and record the initial burette reading.<br>4)Measure and pour 50cm^3 of 0.5moldm^-3 of hydrogen peroxide into a conical flask.<br>5)Add a pinch of manganese(IV) oxide into the conical flask&nbsp;<br>6)Close the conical flask immediately with stopper fitted with delivery tube.Start thestopwatch.<br>7)Collect 25cm^3 of oxygen gas released by downward displacement of water.<br>8)Swirl the conical flask throughout the experiment<br>9)Record the time taken to collect 25cm^3 of oxygen gas.<br>10)Repeat steps 1 to 9 with 50cm^3 of 0.5 moldm^-3 of hydrogen peroxide without the addition manganese (IV) oxide.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 05:47:36 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227285</guid>
      </item>
      <item>
         <title>1181101099 (Tan Chun Keat , T2A)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227368</link>
         <description><![CDATA[<div>Hypothesis : The longer the wire , the higher the resistance.<br><br>Steps :&nbsp;<br>1. A eureka wire is connected in the circuit together with the ammeter , voltmeter , battery , switch and rheostat using a connecting wire.<br>2. The length of eureka wire between two connecting points is adjusted to 20cm.<br>3. The switch is closed and the rheostat is adjusted until the ammeter reading , I is 0.5A.&nbsp;<br>4. Step 3 is repeated for wire lengths 40cm , 60cm , 80cm and 100cm.<br>5. The resistance , R = V/I is calculated for each length.<br>6. A graph of R against I is plotted.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 05:48:55 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227368</guid>
      </item>
      <item>
         <title>1181100425 (Lee Woei Jye, T1A)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227626</link>
         <description><![CDATA[<div>Hypothesis:the longer the length of simple pendulum,the longer the oscillation.<br>Procedure<br>1)The thread is tied to the pendulum bob.The other end of the thread is tied around the arm of the retort stand so that it can swing freely.The length of the pendulum,l is measured to 80cm as per the diagram.<br>2)With the thread taut and the bob at rest,the bob is lifted at a small amplitude (of not more than 10°).Ensure that the pendulum swings in a single plane.<br>3)The time for ten oscillations of the pendulum is measured using the stopwatch.<br>4) Step 3 is repeated , and the average of both readings are calculated.<br>5)The period of oscillation,T is calculated using the average reading divided by the number of oscillations i.e. 10.<br>6)T² is calculated by squaring the value of T.<br>7)Steps 1 to 6 are repeated using l=70cm,60cm,50cm,and 40cm.<br>8)A graph T² versus l is plotted</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 05:52:33 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227626</guid>
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      <item>
         <title>1181100850 (Wong Cong Zhi , T1)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227627</link>
         <description><![CDATA[<div>Hypothesis:&nbsp; The deeper the actual depth, the deeper the apparent depth.<br>Steps:<br>1. A pin is mounted in a movable clamp on a retort stand.<br>2. Another pin is placed at the base&nbsp; of the tall beaker. Water is filled as the actual depth to D= 7.0cm<br>3. The object pin O is observed form the top, and pun I is adjusted vertically until it appears to meet pin O. At this point, the position of pin I matches the apparent depth, d of pin ). The apparent depth is measured fro, the top of the water level to the position if pin I.<br>4.Step 4 is repeated by changing the actual depth to 9.0cm , 11.0cm , 13.0cm and&nbsp; 15.0cm.<br>5.The result are tabulated and a graph of D against d is plotted.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 05:52:33 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227627</guid>
      </item>
      <item>
         <title>1171103841(Toh Tao Jie</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227815</link>
         <description><![CDATA[<div>Hypothesis : The presence of yeast will affect the expansion of balloon.<br><br>Steps:</div><div>1. Fill the bottle up with about one inch of warm water.<br>( When yeast is cold or dry the micro organisms are resting.)<br>2. Add all of the yeast packet and gently swirl the bottle a few seconds.<br>(As the yeast dissolves, it becomes active – it comes to life! Don’t bother looking for movement, yeast is a microscopic fungus organism.)<br>3. Add the sugar and swirl it around some more.<br>Like people, yeast needs energy (food) to be active, so we will give it sugar. Now the yeast is “eating!”<br><br></div><div>4. Blow up the balloon a few times to stretch it out then place the neck of the balloon over the neck of the bottle.<br>5. Let the bottle sit in a warm place for about 20 minutes<br>If all goes well the balloon will begin to inflate!<br><br></div><div><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 05:54:46 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227815</guid>
      </item>
      <item>
         <title>1171102640(Hood)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227903</link>
         <description><![CDATA[<div> Hypothesis: increasing the temperature increases the rate of evaporation of water<br>steps:<br>1)the temperature increases which causes the molecules to move faster and more vigorously and increases the kinetic energy of the molecules .<br>2)the molecules with the higher temperature will escape to the surface and then evaporates.<br>3) if the water is in room temperature the molecules will stay stable <br>4)so the molecules will not escape to the surface because it wont have kinetic energy and its not going to evaporate</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 05:55:38 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274227903</guid>
      </item>
      <item>
         <title>1181100738( LIEW YEE SEN, T1A )</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274228346</link>
         <description><![CDATA[<div><strong>Hypothesis:</strong> The larger the weight, the deeper the depth.<br><br><strong>Steps: <br></strong>1. Prepare two iron ball it's 1kg and 3kg, ring stand, rope, scissor, ruler and sticky block.</div><div>2. Use ring stand and rope binding 1kg iron ball and put the sticky block under the iron ball.&nbsp;</div><div>3. Using scissor cut the rope and let the iron ball fell on the sticky block.&nbsp;</div><div>4. Measure and record the depth that the iron ball fell on the sticky ball.&nbsp;</div><div>5. Repeat the step 2-4 by using 3kg iron ball.&nbsp;<br>6. Conclude it the deeper the depth with which weight of iron ball.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:00:05 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274228346</guid>
      </item>
      <item>
         <title>1181100967 ( Lee Zhi Yang, T2A)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274228402</link>
         <description><![CDATA[<div>Hypothesis: If more water is taken, more urine will be relaesed.<br>Procedures:<br>1) Two students are chosen at random and instructed to empty their bladders before the start of the experiment.<br>2) 200ml of water is measured and put&nbsp; into the mug.<br>3) Student A and B are given 200ml of mineral drinking water to drink.<br>4) A stopwatch is started immediately after consuming the water.<br>5) During the experiment, they are kept within 2 hours.<br>6) They are instructed not to eat and perform any vigorous physical activities.<br>7) After half and hour, they are asked to empty their bladders.<br>8) The collected urine is kept in a large beaker.<br>9) At the interval of half and hour, until two hours, students empty their bladders.<br>10) After two hours, the total collected urine is measured using measuring cylinder.<br>11) Repeat steps 2-10 for different amount of drinking water ( 400ml, 600ml, 800ml, 1000ml ) for student A while the same amount of drinking water ( 200ml, 200ml, 200ml, 200ml ) for student B.<br>12) Step 11 is conducted for four consecutive days in a fixed time and place.<br>13) Measure and record the collected data into a table.&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:00:28 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274228402</guid>
      </item>
      <item>
         <title>1181100678(NG WEN DONG)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274229219</link>
         <description><![CDATA[<div><strong>Hypothesis</strong>: The larger the volume of water consumed, the larger the volume of urine excreted.<br><strong>Procedures:</strong><br>1. The night before the experiment, the participating students are not to consume any food or drinks after 10.00p.m.<br>2. Students are divided into four groups according to their average weight.<br>3. On the day of the experiment, each student drinks 500ml of distilled water in the morning one hour before the experiment.<br>4. Each student empties his or her urinary bladder and collects the urine sample at the beginning of the laboratory period.<br>5. Measuring cylinders are used to measure the volumes of these samples. These volumes are taken as the volume of urine excreted at the beginning of the experiment.<br>6. Immediately after that, each group is assigned to drink various amounts of distilled water.<br>Group 1 : 250ml of distilled water<br>Group 2 : 500ml of distilled water<br>Group 3 : 750ml of distilled water<br>Group 4 : 1000ml of distilled water</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:08:09 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274229219</guid>
      </item>
      <item>
         <title>1181101586 (ARRVEEN KUMAR A/L SURESH KUMAR)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274229232</link>
         <description><![CDATA[<div>&nbsp;</div><div><strong>Hypothesis</strong>: A person's weight is a continuous variation.<br><strong>Steps</strong><br>1) 10 student is randomly selected in the class.<br>2) The weight of each student in the class is measured and recorded.<br>3)The result is then grouped into different ranges.</div><div>4)A histogram for the number of students against weight is drawn.</div><div>5)A curve is drawn joining the midpoint of the top of each box to form a normal curve .&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:08:14 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274229232</guid>
      </item>
      <item>
         <title>1181101060 CHONG YOU LI (T2)</title>
         <author>mrchongyl99</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274229746</link>
         <description><![CDATA[<div><strong>Hypothesis : <br></strong>The longer time taken for the methylene blue solution to decolourize, the less polluted the water source is. <br><br></div><div><strong>Steps : </strong></div><ol><li>Water samples are collected from four different sources (tap water, river water, pond water and drain water) and distilled water is used as a control.</li><li>Five reagent bottles are labelled as A, B, C, D and E respectively.</li><li>Each reagent bottle is filled with the following water sample. </li><li>1ml of methylene blue solution is added by using a syringe to the base of each water sample  in each reagent bottle. </li><li>Each reagent bottle is then closed quickly with a stopper.</li><li>The reagent bottle cannot be shaken.</li><li>Each reagent bottle is kept in a dark place (cupboard) and then the stopwatch is started.</li><li>The bottles are examined from time to time.</li><li>The time taken for methylene blue to decolorize is recorded.</li></ol><div><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:13:11 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274229746</guid>
      </item>
      <item>
         <title>1181100935 (How Jun Jie)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274229856</link>
         <description><![CDATA[<div>Hypothesis :<br>The longer the length of a simple pendulum, the longer the period of oscillation.&nbsp;<br>Step:<br>1.The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum is measured to 80cm.<br>2.With the thread taut and the bob at rest, the bob is lifted at a small amplitude.&nbsp;<br>3.The time for ten complete oscillations of the pendulum is measured using the stopwatch.&nbsp;<br>4.Step 3 is repeated, and the average of both readings are calculated.&nbsp;<br>5.The period of oscillation is calculated using the average reading divided by the number of oscillations.&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:14:04 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274229856</guid>
      </item>
      <item>
         <title>(1181100675)(Lim kah chuan)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274231010</link>
         <description><![CDATA[<div><br>Hypothesis:Bacteria thrive in neutral conditions but not in conditions that are very acidic and alkaline.<br><br>Procedure: 1) 5cm cube of hot nutrients agar into MC Cockey&nbsp; &nbsp; &nbsp; &nbsp;<br>bottle A,B and C.<br>2). Let the agar solidify before adding 1 cm³ of bacteria culture solution on the surface of the&nbsp;</div><div>solidified agar.&nbsp;</div><div>3. Add 1 cm³ of hydrochloric acid into one Mc Conkey bottle , 1 cm³ of sodium hydroxide&nbsp;</div><div>solution into the second Mc Conkey bottle, and 1 cm³ of distilled water into the third Mc&nbsp;</div><div>Conkey bottle using syringes.&nbsp;</div><div>4. Place the three Mc Conkey A,B and C inverted in a dark cupboard for two to three days.&nbsp;</div><div>5. Record your observation on the growth of bacteria at the end of the experiment</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:22:17 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274231010</guid>
      </item>
      <item>
         <title>1181100993 （ONG YUAN QIN）</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274231059</link>
         <description><![CDATA[<div>Hypothesis: The total momentum before collision is equal to the total momentum after collision, provided there are no external forces acting on the system.<br><br> <strong> Steps</strong><br>1)<strong> </strong>The apparatus is set up shown in the diagram <br>2) Two trolleys A and B of equal mass are placed in contact with each other on an even and smooth surface. Two wooden blocks are placed one the same row at the end of each trolley respectively.<br>3) The vertical trigger on trolley B is given a light tap to release the spring-loaded piston which then pushes the trolleys apart. The trolleys collide with the wooden blocks.<br>4) The positions of the wooden blocks are adjusted so that both the trolleys collide with them at the same time.<br>5) The distance,distance of A and distance of B measured and recorded.<br>6)The experiment is repeated with different masses of trolleys.</div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/305830170/19407f72334cb3e8a181ba287a68dcff/Screenshot_20180821_144601__01.jpg" />
         <pubDate>2018-08-21 06:22:38 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274231059</guid>
      </item>
      <item>
         <title>1181101337 (Tan Li Chong )</title>
         <author>lichongtan77</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274231348</link>
         <description><![CDATA[<div>Hypothesis: The more book you read , the more question you can answer.<br><br>Steps<br>1.Collect 50 people to do this experiment.<br>2.Divide 50 people into 5 group.<br>3.The group name with group A,B,C,D,and E<br>4.Prepare 10 book about critical thinking , 10 book about computer application , 10 book about physic , 10 book about biology and 10 book about chemistry.<br>5.Give group A the book about computer application and critical thinking.<br>6.Give group B the book about physic<br>7.Give group C the book about biology<br>8.Give group D the book about chemistry<br>9.group E does not receive any book.<br>10.After 1 week, all the group A participant stay at exam hall and give the a test about critical thinking , computer application , physic , biology and chemistry.<br>11. After the test ,collect the marks about the participant.<br>12 .Repeat the experiment by Group B,C,D and E <br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:24:10 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274231348</guid>
      </item>
      <item>
         <title>1181101067 (Iman Zarif bin Norfazli)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274231554</link>
         <description><![CDATA[<div>Hypothesis:<br>The more sleep a person gets,the more energy that person has for the next day<br><br>Steps:<br>1.Gather 20 people of the same age and divide the people into 2 groups of 10 person each<br>2.One group will get 8 hours of sleep while the other group will only get 4 hours of sleep<br>3.After the groups have woken up,all of them will be given a physical test and will be timed<br>4.Record the time taken for both groups to finish the physical tests</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:25:16 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274231554</guid>
      </item>
      <item>
         <title>1181100453 (HAIQAL BAHRUDIN) </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274232368</link>
         <description><![CDATA[<div>HYPOTHESIS :<br>Human who can read normally still can read jumbled words<br><br>STEPS :<br>1. Choose three normal people who can read<br>2. Give three of them a letter with jumbled words<br>3. After all of them had read the letter, give them some questions based on the letter.<br>4. Observe and record their answer</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:30:09 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274232368</guid>
      </item>
      <item>
         <title>1181100671(Tey Yee Yang Brandon</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274232580</link>
         <description><![CDATA[<div>Hypothesis:<br>Increase in temperature will increase the rate of reaction.<br><br>Procedure<br>1) 50 cm^3&nbsp; of 0.2 mol dm^-3 sodium thiosulphate solution is measured using a measuring cylinder and poured into a conical flask.<br>2) The temperature of this solution is measured using a thermometer.<br>3) The conical flask is placed on a white paper marked with an "X" at the centre.<br>4) 5 cm^3 of 1 mol dm^-3 sulphuric acid is measured using a measuring cylinder.<br>5) The sulphuric acid is added quickly and the stopwatch is started immediately<br>6) The mixture is swirled a few times and placed back on the white paper.<br>7) The stopwatch is stopped when the "X' is no longer visible.&nbsp;<br>8) Record the time taken<br>9) Repeat the experiment by using different temperature of sodium thiosulphate solution.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:31:44 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274232580</guid>
      </item>
      <item>
         <title>1181100599( Lee Sye Ling) T1A</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274232785</link>
         <description><![CDATA[<div><strong>Hypothesis:The reactivity&nbsp; of a radioactive sample decreases exponentially with time.</strong><br><br><em>Procedure:</em><br><br>1)Place 400 coins which are painted black on one face into a box.<br><br>2)Shake the box well .Then toss the all the coins out of the box onto a table.<br><br>3)Remove the coins with the face painted black facing upwards.<br><br>4)Record the number of coins removed.Then count and record all coins which are not removed as N and place them back into a box.<br><br>5)Can repeat a few times to get the different results.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:33:47 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274232785</guid>
      </item>
      <item>
         <title>1181100520 (Siah Weelie)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274232821</link>
         <description><![CDATA[<div>Hypothesis: the longer the playing online game, the lower the result of exam.<br>Steps:<br>1. Random choose 10 student from classroom.<br>2. Random choose five out of ten and let they choose same online game.<br>3. setting a minimum limit time (3 hour or more) for playing same online game<br>4.give they a test after 1 month<br>5.record and compare their result&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:34:06 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274232821</guid>
      </item>
      <item>
         <title>1181101188 ( Muhammad Hakimi bin Hamidzul )</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274233311</link>
         <description><![CDATA[<div>Hypothesis: Blue ink is better for memorization compare to black ink<br>1. Choose two student randomly in the same class<br>2. Give them different pen, one with blue ink and another one with black ink<br>3. Ask them to rewrite a text that had been given<br>4. Ask them several questions after they had finish writing <br>5. Record the results of the correct answer by both student</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:38:30 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274233311</guid>
      </item>
      <item>
         <title>1181101545(Muhammad Amir Aliff</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274234412</link>
         <description><![CDATA[<div>Movement of substances across a semi-permeable permeable membrane<br><br>Procedure<br>&nbsp;</div><div><br></div><div>1.Wet one Visking tubing. Tie a knot firmly at one end.<br><br></div><div>2.Pour 10ml of glucose solution and 10ml of starch suspension into the Visking tube. Tie a</div><div>knot at the top of the tubing. Record the colour of the mixture.<br><br></div><div>3.Rinse the outside of the Visking tubing using distilled water.<br><br></div><div>4.Pour 300ml of distilled water into a beaker. Add in 10ml of iodine solution. Record the</div><div>colour of its solution.<br><br></div><div>5.Imerse the Visking tubing in the beaker of solution for 3o minutes as shown in the</div><div>diagram.<br><br></div><div>6.After 30 minutes, remove the Visking tubing and transfer it into a dry beaker.<br><br></div><div>7.Record the colours of the contents in the Visking tubing and the solution in the beaker.<br><br></div><div>8.Test for the presence of glucose in the content of the Visking tubing and the solution in the</div><div>beaker using the following steps:</div><div>a.Pour 2ml of the solution into a test tube and add in 1ml of Benedicts solution.</div><div>b.Heat the mixture in a beaker of water bath. Record the change in colour</div><div><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 06:46:28 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274234412</guid>
      </item>
      <item>
         <title>1181101663(Pravin A/L Morgan)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274242715</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 07:47:24 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274242715</guid>
      </item>
      <item>
         <title>1181100991 [ Tee Zi Jun ]</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274243671</link>
         <description><![CDATA[<div>Hypothesis : The increases the volume of water , the increases the time taken for reaching the boiling point.<br><br>Step 1 : Prepare the material such as beaker , bunsen burner , tripod stand , water and others.<br>Step 2 : Fill 500ml water into the beaker A and fill 1000ml water into the beaker B.<br>Step 3 : Put beaker A and B on the tripod stand and start boil the water by using bunsem burner.<br>Step 4 : Observe and record data of the time taken for which beaker reaching the boiling point.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 07:57:47 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274243671</guid>
      </item>
      <item>
         <title>1181100863 (Tan Kah Wai)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274243894</link>
         <description><![CDATA[<div>Hypothesis: The higher the temperature,the shorter the time taken the water to completely evaporate.<br><br>Step 1 : Prepare two beakers and a timer.<br>Step 2 : Fill up the beakers with 500ml water.<br>Step 3 : Put each of the beakers outside in different time zone,one in afternoon,one at night.<br>Step 4 : Observe and record the time taken for the water to completely evaporate.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 08:00:08 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274243894</guid>
      </item>
      <item>
         <title>1181101482 ( SHAKTI RUBINEE)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274253854</link>
         <description><![CDATA[<div>Hypothesis : Light is essential for photosynthesis.<br><br>Procedure :<br>1.Take the potted plant and keep it in a dark place for 2-3 days so that the leaves&nbsp; gets destarched.<br>2.Cover a part of one of its leaves with the strip of black paper.Make sure that you cover both the sides of the leaf.<br>3.Now place this plant in sunlight for 3-4 hours.<br>4.Pluck the selected covered leaf and remove the black paper covering it.<br>5.Place this leaf in the beaker containing water and boil it for about 10 minutes.<br>6.Take out the leaf and now boil it in alcohol,using the water bath,for 10 minutes. This removes the chlorophyll.<br>7.Take out the leaf and wash it under running water.<br>8.Place this leaf in the Petri dish and put few drops of iodine solution on it. Now observes the change in colour.  </div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 09:13:37 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274253854</guid>
      </item>
      <item>
         <title>1171103831 (Verona Tan Xiang Ni  LM01)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274260226</link>
         <description><![CDATA[<div>Hypothesis: Does the surface tension makes the paper clip float on water?<br>Procedure:<br>1) Fill the bowl with water<br>2) Tear a piece of tissue paper about half the size of a dollar bill<br>3) Gently drop the tissue flat onto the surface of the water<br>4) Gently place a dry paper clip flat onto the tissue (try not to touch the water or the tissue)<br>5) Use the eraser end of the pencil to carefully poke the tissue (not the paper clip) until the tissue sinks. <br>6) The tissue will sink and leave the paper clip floating</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 10:30:40 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274260226</guid>
      </item>
      <item>
         <title>Lee Chia Hao(1181100681-T1A</title>
         <author>1181100681</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274260274</link>
         <description><![CDATA[<div>Hypothesis: Learning point is a better place for study compare with library<br><br>Procedures :<br>1.Ramdomly pick 30 students from MMU.<br>2. Give order to half of them go to learning point study Critical Thinking Topic 1-4. And others go to library study the same topic.<br>3.Give them 1 hour to study.<br>4.After that ,give them the same test.<br>5.Observe,record and find the average mark for learning point and library.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 10:31:09 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274260274</guid>
      </item>
      <item>
         <title>1181102022 (VINOD A/L RAGHU</title>
         <author>1181102022</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274262194</link>
         <description><![CDATA[<div>Hypothesis: The higher the current flowing throught the solenoid, the stronger the electromagnet.<br><br>Procedure:<br>1)The metal rod is wrapped with 10 turns of the insulated copper wire and both ends are connected to a circuit as shown in diagram<br>2)The circuit is started and the rheostat is adjusted to get 1.0 A current.<br>3) One end of the elctromagnet is inserted into the dish of pins, and then removed. The current is switched off. The number of pins that were stuck to the electromagnet is counted.<br>4) The experiment is repeated  with current value of 2.O A. 3.0 A.4.0 A and 5.0 A.</div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/302430408/62cc5263e03389b71e45171527044458/f5_physics_experiment_list_24_638.jpg" />
         <pubDate>2018-08-21 10:47:09 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274262194</guid>
      </item>
      <item>
         <title>1171103867 ( Tey Wan Teng)</title>
         <author>1171103867</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274262357</link>
         <description><![CDATA[<div>Hypothesis: People weight more in the afternoon compared to the morning.<br><br>Procedure:<br>1. Choose 30 - 40 people of all ages randomly.<br>2. Weight all of them in the morning around 8am to 10am.<br>3. Observe and record the results.<br>4. Then, weight all of them in the afternoon around 1pm to 3pm.<br>5. Observe and record the results again.<br>6. Analyse and compare the results.<br>7. Carry out this experiment for three consecutive days for a more accurate result.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 10:48:52 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274262357</guid>
      </item>
      <item>
         <title>1171103510 ( Pok Xiao Lin LM01)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274265356</link>
         <description><![CDATA[<div>Hypothesis: A bone can be bended by using vinegar.<br><br>Procedure:<br>1. Have a nice chicken dinner and save a bone. Leg bones work best.</div><div>2. Rinse off the bone in running water to remove any meat from the bone.<br>3. Notice how hard the bone is – gently try bending it. Like our bones, chicken bones have a mineral called calcium in them to make them hard.</div><div>4.Put the bone into the jar and cover the bone with vinegar. It might be a good idea to put the lid on the jar or cover it – let it sit for 3 days</div><div>5. After 3 days remove the bone. It should feel different. Now can rinse it off and try bending it again.&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 11:12:23 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274265356</guid>
      </item>
      <item>
         <title>LM01 NG JIA HUI (1171103571）</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274271353</link>
         <description><![CDATA[<div>Hypothesis: Bacteria grow well in the dark than in the light.<br><br>Procedures:<br>1. Put nutrient agar and 1cm³ of bacterial culture into two petri dishes and label A and B.<br>2. Close the petri dishes and seal with cellophane tape.<br>3. Store petri dish A in a dark cupboard and petri dish B under a lighted lamp.<br>4. Left the both petri dishes for two days.<br>5. Record the number of bacterial colonies in each petri dish at the end of the experiment.&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 11:47:39 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274271353</guid>
      </item>
      <item>
         <title>1181101618 (Premshanthiyaa A/P Sagardevan)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274275767</link>
         <description><![CDATA[<div><br></div><blockquote><strong><em>Hypothesis: Egg can float on the high concentrate of salt water.</em></strong></blockquote><div><br>Procedure: <br> </div><ul><li><em>Carefully place the egg into the glass of water.</em></li></ul><div><br></div><ul><li><em>Initially the egg will sink to the bottom.</em></li></ul><div><br></div><ul><li><em>Pour in two teaspoons of salt and stir carefully around the egg.</em></li></ul><div><br></div><ul><li><em>Continue to add the salt and stir until the egg rises.</em></li></ul><div><br></div><ul><li><em>Eventually the egg will float as salt water is denser than fresh water and the egg will weigh less than the water. </em></li></ul><div><br><br><br></div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/301209808/1e1bb601de68c28e02870f303c769672/egg_science_project.jpg" />
         <pubDate>2018-08-21 12:13:16 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274275767</guid>
      </item>
      <item>
         <title>1181101030 ( Eugene Tan Kok Yew )</title>
         <author>eugenetan904</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274276193</link>
         <description><![CDATA[<div>Hypothesis:&nbsp;<br>People in a rush would be much less likely to show helping behavior.&nbsp;<br><br>Procedures:<br>1. Participants were told to travel from one building to the next.&nbsp;</div><div>2. Participants were given instruction to some being told not to rush and others being informed that speed was of the essence.&nbsp;</div><div>3.&nbsp; Between the two buildings was a man lying injured and appearing to be in dire need of assistance.&nbsp;<br>4.&nbsp;Observe the number of participants who helped the man and who don't.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 12:15:32 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274276193</guid>
      </item>
      <item>
         <title>1171103368 (Angelin Tan Li Xin ,LM 01)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274277431</link>
         <description><![CDATA[<div>Hypothesis : The bouncy ball can be bounced over a foot high and the ball has quite a unique to feel it.<br><br>Procedure:</div><ol><li>Label one cup ‘Borax Solution’ and the other cup ‘Ball Mixture’.</li><li>Pour 4 ounces (120ml) of warm water into the cup labeled ‘Borax Solution’ and 1 teaspoon of the borax powder into the cup. Stir the mixture to dissolve the borax.</li><li>Pour 1 tablespoon of glue into the cup labeled ‘Ball Mixture’. Add 3-4 drops of food coloring, if desired.</li><li>Add 1/2 teaspoon of the borax solution you just made and 1 tablespoon of cornstarch to the glue. Do not stir.</li><li>Allow the ingredients to interact on their own for 10-15 seconds and then stir them together to fully mix.</li><li>Once the mixture becomes impossible to stir, take it out of the cup and start molding the ball with your hands. The ball will start out sticky and messy, but will solidify as you knead it. Once the ball is less sticky, continue rolling between your hands until it is smooth and round!</li></ol>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 12:22:04 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274277431</guid>
      </item>
      <item>
         <title>LM01 1171103672(Gan Li Hui) </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274291193</link>
         <description><![CDATA[<div>Hypothesis： Greater light intensity gives a greater rate of photosynthesis.<br>Procedures</div><ol><li>Leave for five minutes for the pondweed to acclimatise to the new light intensity.</li><li>Count the number of bubbles given off in one minute.</li><li>Move the light 10 cm further back.</li><li>Leave for five minutes for the pondweed to acclimatise again.</li><li>Repeat by moving the lamp away by 10 cm intervals until 50 cm is reached.</li></ol><div><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 13:17:55 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274291193</guid>
      </item>
      <item>
         <title>1171103341 （LM01 Ivy See）</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274295176</link>
         <description><![CDATA[<div><strong>Hypothesis: The vegetable oil will react with the alkali to form soap during saponification process. <br><br>Procedure:</strong><br>&nbsp;1.&nbsp; The animation below shows the arrangement of the apparatus and the observation of the experiment.<br>2. 5cm<sup>3</sup> of palm oil are measured by measuring cylinder and poured into a beaker.<br>3. 30cm<sup>3</sup> of sodium hydroxide are measured and added into the beaker.<br>4. The mixture is stirred constantly and heated until boiling for about 10 minutes.<br>5. 50cm<sup>3</sup> of water and one spatula of sodium chloride are added into the beaker.<br>6. The mixture is boiled for another 5 minutes and then cool down to room temperature.<br>7.&nbsp; Product formed are filtered and dried with pieces of filter paper.<br>8. The residue is then touched using fingers.<br>9. The residue is then mixed and stirred together with water.<br>10. The experiment is repeated with different vegetable oil.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 13:30:10 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274295176</guid>
      </item>
      <item>
         <title>1171103489 Lee Derk Xin</title>
         <author>derkxin</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274319279</link>
         <description><![CDATA[<div>Hypothesis : The angle of reflection is equal to the angle of incidence<br><br>Procedure :&nbsp;<br>1. A ripple tank is set up<br>2. A plane reflector is placed in the middle of the tank so that it is parallel with the incident wavefronts. The reflected waves are observed through a stoboscope.<br>3. The reflector is then adjusted so that the incident waves approach the reflector at incident angles of 20, 40, 60 and 80 degree. For each situation, the reflected angle is observed.<br>4. The wavelength of the incident and reflected waves are observed and compared.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 14:41:11 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274319279</guid>
      </item>
      <item>
         <title></title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274323312</link>
         <description><![CDATA[1171103489 Lee Derk Xin
1171103489 Lee Derk Xin
Hypothesis : The angle of reflection is equal to the angle of incidence

Procedure : 
1. A ripple tank is set up
2. A plane reflector is placed in the middle of the tank so that it is parallel with the incident wavefronts. The reflected waves are observed through a stoboscope.
3. The reflector is then adjusted so that the incident waves approach the reflector at incident angles of 20, 40, 60 and 80 degree. For each situation, the reflected angle is observed.
4. The wavelength of the incident and reflected waves are observed and compared.
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1171103341 （LM01 Ivy See）
1171103341 （LM01 Ivy See）
Hypothesis: The vegetable oil will react with the alkali to form soap during saponification process. 

Procedure:
 1.  The animation below shows the arrangement of the apparatus and the observation of the experiment.
2. 5cm3 of palm oil are measured by measuring cylinder and poured into a beaker.
3. 30cm3 of sodium hydroxide are measured and added into the beaker.
4. The mixture is stirred constantly and heated until boiling for about 10 minutes.
5. 50cm3 of water and one spatula of sodium chloride are added into the beaker.
6. The mixture is boiled for another 5 minutes and then cool down to room temperature.
7.  Product formed are filtered and dried with pieces of filter paper.
8. The residue is then touched using fingers.
9. The residue is then mixed and stirred together with water.
10. The experiment is repeated with different vegetable oil.

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LM01 1171103672(Gan Li Hui)
LM01 1171103672(Gan Li Hui) 
Hypothesis： Greater light intensity gives a greater rate of photosynthesis.
Procedures
Leave for five minutes for the pondweed to acclimatise to the new light intensity.
Count the number of bubbles given off in one minute.
Move the light 10 cm further back.
Leave for five minutes for the pondweed to acclimatise again.
Repeat by moving the lamp away by 10 cm intervals until 50 cm is reached.

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1171103368 (Angelin Tan Li Xin ,LM 01)
1171103368 (Angelin Tan Li Xin ,LM 01)
Hypothesis : The bouncy ball can be bounced over a foot high and the ball has quite a unique to feel it.

Procedure:
Label one cup ‘Borax Solution’ and the other cup ‘Ball Mixture’.
Pour 4 ounces (120ml) of warm water into the cup labeled ‘Borax Solution’ and 1 teaspoon of the borax powder into the cup. Stir the mixture to dissolve the borax.
Pour 1 tablespoon of glue into the cup labeled ‘Ball Mixture’. Add 3-4 drops of food coloring, if desired.
Add 1/2 teaspoon of the borax solution you just made and 1 tablespoon of cornstarch to the glue. Do not stir.
Allow the ingredients to interact on their own for 10-15 seconds and then stir them together to fully mix.
Once the mixture becomes impossible to stir, take it out of the cup and start molding the ball with your hands. The ball will start out sticky and messy, but will solidify as you knead it. Once the ball is less sticky, continue rolling between your hands until it is smooth and round!
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1181101030 ( Eugene Tan Kok Yew )
1181101030 ( Eugene Tan Kok Yew )
Hypothesis: 
People in a rush would be much less likely to show helping behavior. 

Procedures:
1. Participants were told to travel from one building to the next. 
2. Participants were given instruction to some being told not to rush and others being informed that speed was of the essence. 
3.  Between the two buildings was a man lying injured and appearing to be in dire need of assistance. 
4. Observe the number of participants who helped the man and who don't.

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LM01 NG JIA HUI (1171103571）
LM01 NG JIA HUI (1171103571）
Hypothesis: Bacteria grow well in the dark than in the light.

Procedures:
1. Put nutrient agar and 1cm³ of bacterial culture into two petri dishes and label A and B.
2. Close the petri dishes and seal with cellophane tape.
3. Store petri dish A in a dark cupboard and petri dish B under a lighted lamp.
4. Left the both petri dishes for two days.
5. Record the number of bacterial colonies in each petri dish at the end of the experiment. 
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1171103510 ( Pok Xiao Lin LM01)
1171103510 ( Pok Xiao Lin LM01)
Hypothesis: A bone can be bended by using vinegar.

Procedure:
1. Have a nice chicken dinner and save a bone. Leg bones work best.
2. Rinse off the bone in running water to remove any meat from the bone.
3. Notice how hard the bone is – gently try bending it. Like our bones, chicken bones have a mineral called calcium in them to make them hard.
4.Put the bone into the jar and cover the bone with vinegar. It might be a good idea to put the lid on the jar or cover it – let it sit for 3 days
5. After 3 days remove the bone. It should feel different. Now can rinse it off and try bending it again. 
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1171103867 ( Tey Wan Teng)
1171103867 ( Tey Wan Teng)
Hypothesis: People weight more in the afternoon compared to the morning.

Procedure:
1. Choose 30 - 40 people of all ages randomly.
2. Weight all of them in the morning around 8am to 10am.
3. Observe and record the results.
4. Then, weight all of them in the afternoon around 1pm to 3pm.
5. Observe and record the results again.
6. Analyse and compare the results.
7. Carry out this experiment for three consecutive days for a more accurate result.
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1171103831 (Verona Tan Xiang Ni LM01)
1171103831 (Verona Tan Xiang Ni  LM01)
Hypothesis: Does the surface tension makes the paper clip float on water?
Procedure:
1) Fill the bowl with water
2) Tear a piece of tissue paper about half the size of a dollar bill
3) Gently drop the tissue flat onto the surface of the water
4) Gently place a dry paper clip flat onto the tissue (try not to touch the water or the tissue)
5) Use the eraser end of the pencil to carefully poke the tissue (not the paper clip) until the tissue sinks. 
6) The tissue will sink and leave the paper clip floating
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Lee Chia Hao(1181100681-T1A
Lee Chia Hao(1181100681-T1A
Hypothesis: Learning point is a better place for study compare with library

Procedures :
1.Ramdomly pick 30 students from MMU.
2. Give order to half of them go to learning point study Critical Thinking Topic 1-4. And others go to library study the same topic.
3.Give them 1 hour to study.
4.After that ,give them the same test.
5.Observe,record and find the average mark for learning point and library.
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1181101482 ( SHAKTI RUBINEE)
1181101482 ( SHAKTI RUBINEE)
Hypothesis : Light is essential for photosynthesis.

Procedure :
1.Take the potted plant and keep it in a dark place for 2-3 days so that the leaves  gets destarched.
2.Cover a part of one of its leaves with the strip of black paper.Make sure that you cover both the sides of the leaf.
3.Now place this plant in sunlight for 3-4 hours.
4.Pluck the selected covered leaf and remove the black paper covering it.
5.Place this leaf in the beaker containing water and boil it for about 10 minutes.
6.Take out the leaf and now boil it in alcohol,using the water bath,for 10 minutes. This removes the chlorophyll.
7.Take out the leaf and wash it under running water.
8.Place this leaf in the Petri dish and put few drops of iodine solution on it. Now observes the change in colour.  
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1181100863 (Tan Kah Wai)
1181100863 (Tan Kah Wai)
Hypothesis: The higher the temperature,the shorter the time taken the water to completely evaporate.

Step 1 : Prepare two beakers and a timer.
Step 2 : Fill up the beakers with 500ml water.
Step 3 : Put each of the beakers outside in different time zone,one in afternoon,one at night.
Step 4 : Observe and record the time taken for the water to completely evaporate.

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1181100991 [ Tee Zi Jun ]
1181100991 [ Tee Zi Jun ]
Hypothesis : The increases the volume of water , the increases the time taken for reaching the boiling point.

Step 1 : Prepare the material such as beaker , bunsen burner , tripod stand , water and others.
Step 2 : Fill 500ml water into the beaker A and fill 1000ml water into the beaker B.
Step 3 : Put beaker A and B on the tripod stand and start boil the water by using bunsem burner.
Step 4 : Observe and record data of the time taken for which beaker reaching the boiling point.
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1181101663(Pravin A/L Morgan)
1181101663(Pravin A/L Morgan)
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1181101545(Muhammad Amir Aliff
1181101545(Muhammad Amir Aliff
Movement of substances across a semi-permeable permeable membrane

Procedure
 

1.Wet one Visking tubing. Tie a knot firmly at one end.

2.Pour 10ml of glucose solution and 10ml of starch suspension into the Visking tube. Tie a
knot at the top of the tubing. Record the colour of the mixture.

3.Rinse the outside of the Visking tubing using distilled water.

4.Pour 300ml of distilled water into a beaker. Add in 10ml of iodine solution. Record the
colour of its solution.

5.Imerse the Visking tubing in the beaker of solution for 3o minutes as shown in the
diagram.

6.After 30 minutes, remove the Visking tubing and transfer it into a dry beaker.

7.Record the colours of the contents in the Visking tubing and the solution in the beaker.

8.Test for the presence of glucose in the content of the Visking tubing and the solution in the
beaker using the following steps:
a.Pour 2ml of the solution into a test tube and add in 1ml of Benedicts solution.
b.Heat the mixture in a beaker of water bath. Record the change in colour


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1181101188 ( Muhammad Hakimi bin Hamidzul )
1181101188 ( Muhammad Hakimi bin Hamidzul )
Hypothesis: Blue ink is better for memorization compare to black ink
1. Choose two student randomly in the same class
2. Give them different pen, one with blue ink and another one with black ink
3. Ask them to rewrite a text that had been given
4. Ask them several questions after they had finish writing 
5. Record the results of the correct answer by both student
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Anonymous 8h
amazing work miki!
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1181101618 (Premshanthiyaa A/P Sagardevan)
1181101618 (Premshanthiyaa A/P Sagardevan)

Hypothesis: Egg can float on the high concentrate of salt water.

Procedure: 
 
Carefully place the egg into the glass of water.

Initially the egg will sink to the bottom.

Pour in two teaspoons of salt and stir carefully around the egg.

Continue to add the salt and stir until the egg rises.

Eventually the egg will float as salt water is denser than fresh water and the egg will weigh less than the water. 



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1181100520 (Siah Weelie)
1181100520 (Siah Weelie)
Hypothesis: the longer the playing online game, the lower the result of exam.
Steps:
1. Random choose 10 student from classroom.
2. Random choose five out of ten and let they choose same online game.
3. setting a minimum limit time (3 hour or more) for playing same online game
4.give they a test after 1 month
5.record and compare their result 
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1181100599( Lee Sye Ling) T1A
1181100599( Lee Sye Ling) T1A
Hypothesis:The reactivity  of a radioactive sample decreases exponentially with time.

Procedure:

1)Place 400 coins which are painted black on one face into a box.

2)Shake the box well .Then toss the all the coins out of the box onto a table.

3)Remove the coins with the face painted black facing upwards.

4)Record the number of coins removed.Then count and record all coins which are not removed as N and place them back into a box.

5)Can repeat a few times to get the different results.
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1181100671(Tey Yee Yang Brandon
1181100671(Tey Yee Yang Brandon
Hypothesis:
Increase in temperature will increase the rate of reaction.

Procedure
1) 50 cm^3  of 0.2 mol dm^-3 sodium thiosulphate solution is measured using a measuring cylinder and poured into a conical flask.
2) The temperature of this solution is measured using a thermometer.
3) The conical flask is placed on a white paper marked with an "X" at the centre.
4) 5 cm^3 of 1 mol dm^-3 sulphuric acid is measured using a measuring cylinder.
5) The sulphuric acid is added quickly and the stopwatch is started immediately
6) The mixture is swirled a few times and placed back on the white paper.
7) The stopwatch is stopped when the "X' is no longer visible. 
8) Record the time taken
9) Repeat the experiment by using different temperature of sodium thiosulphate solution.
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1181102022 (VINOD A/L RAGHU
1181102022 (VINOD A/L RAGHU
Hypothesis: The higher the current flowing throught the solenoid, the stronger the electromagnet.

Procedure:
1)The metal rod is wrapped with 10 turns of the insulated copper wire and both ends are connected to a circuit as shown in diagram
2)The circuit is started and the rheostat is adjusted to get 1.0 A current.
3) One end of the elctromagnet is inserted into the dish of pins, and then removed. The current is switched off. The number of pins that were stuck to the electromagnet is counted.
4) The experiment is repeated  with current value of 2.O A. 3.0 A.4.0 A and 5.0 A.
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1181100453 (HAIQAL BAHRUDIN)
1181100453 (HAIQAL BAHRUDIN) 
HYPOTHESIS :
Human who can read normally still can read jumbled words

STEPS :
1. Choose three normal people who can read
2. Give three of them a letter with jumbled words
3. After all of them had read the letter, give them some questions based on the letter.
4. Observe and record their answer
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4 comments

Anonymous 8h
hensem ahh org besar yg disave gmbr ig

Anonymous 8h
orang dia besar,adik dia besar tak?

Anonymous 8h
emmmm xtau ahh,, nnti kita check.. guna critical thinking

Anonymous 8h
kena guna inductive argument ni...
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1181101067 (Iman Zarif bin Norfazli)
1181101067 (Iman Zarif bin Norfazli)
Hypothesis:
The more sleep a person gets,the more energy that person has for the next day

Steps:
1.Gather 20 people of the same age and divide the people into 2 groups of 10 person each
2.One group will get 8 hours of sleep while the other group will only get 4 hours of sleep
3.After the groups have woken up,all of them will be given a physical test and will be timed
4.Record the time taken for both groups to finish the physical tests
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Anonymous 8h
bats.. terbang !!
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1181100993 （ONG YUAN QIN）
1181100993 （ONG YUAN QIN）
Hypothesis: The total momentum before collision is equal to the total momentum after collision, provided there are no external forces acting on the system.

  Steps
1) The apparatus is set up shown in the diagram 
2) Two trolleys A and B of equal mass are placed in contact with each other on an even and smooth surface. Two wooden blocks are placed one the same row at the end of each trolley respectively.
3) The vertical trigger on trolley B is given a light tap to release the spring-loaded piston which then pushes the trolleys apart. The trolleys collide with the wooden blocks.
4) The positions of the wooden blocks are adjusted so that both the trolleys collide with them at the same time.
5) The distance,distance of A and distance of B measured and recorded.
6)The experiment is repeated with different masses of trolleys.
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(1181100675)(Lim kah chuan)
(1181100675)(Lim kah chuan)

Hypothesis:Bacteria thrive in neutral conditions but not in conditions that are very acidic and alkaline.

Procedure: 1) 5cm cube of hot nutrients agar into MC Cockey       
bottle A,B and C.
2). Let the agar solidify before adding 1 cm³ of bacteria culture solution on the surface of the 
solidified agar. 
3. Add 1 cm³ of hydrochloric acid into one Mc Conkey bottle , 1 cm³ of sodium hydroxide 
solution into the second Mc Conkey bottle, and 1 cm³ of distilled water into the third Mc 
Conkey bottle using syringes. 
4. Place the three Mc Conkey A,B and C inverted in a dark cupboard for two to three days. 
5. Record your observation on the growth of bacteria at the end of the experiment
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1181100935 (How Jun Jie)
1181100935 (How Jun Jie)
Hypothesis :
The longer the length of a simple pendulum, the longer the period of oscillation. 
Step:
1.The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum is measured to 80cm.
2.With the thread taut and the bob at rest, the bob is lifted at a small amplitude. 
3.The time for ten complete oscillations of the pendulum is measured using the stopwatch. 
4.Step 3 is repeated, and the average of both readings are calculated. 
5.The period of oscillation is calculated using the average reading divided by the number of oscillations. 
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1181101060 CHONG YOU LI (T2)
1181101060 CHONG YOU LI (T2)
Hypothesis : 
The longer time taken for the methylene blue solution to decolourize, the less polluted the water source is. 

Steps : 
Water samples are collected from four different sources
 (tap water, river water, pond water and drain water) and distilled water is used as a control.
Five reagent bottles are labelled as A, B, C, D and E respectively.
Each reagent bottle is filled with the following water sample. 
1ml of methylene blue solution is added by using a syringe to the base of each water sample  in each reagent bottle. 
Each reagent bottle is then closed quickly with a stopper.
The reagent bottle cannot be shaken.
Each reagent bottle is kept in a dark place (cupboard) and then the stopwatch is started.
The bottles are examined from time to time.
The time taken for methylene blue to decolorize is recorded.

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1181101337 (Tan Li Chong )
1181101337 (Tan Li Chong )
Hypothesis: The more book you read , the more question you can answer.

Steps
1.Collect 50 people to do this experiment.
2.Divide 50 people into 5 group.
3.The group name with group A,B,C,D,and E
4.Prepare 10 book about critical thinking , 10 book about computer application , 10 book about physic , 10 book about biology and 10 book about chemistry.
5.Give group A the book about computer application and critical thinking.
6.Give group B the book about physic
7.Give group C the book about biology
8.Give group D the book about chemistry
9.group E does not receive any book.
10.After 1 week, all the group A participant stay at exam hall and give the a test about critical thinking , computer application , physic , biology and chemistry.
11. After the test ,collect the marks about the participant.
12 .Repeat the experiment by Group B,C,D and E 

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1181100678(NG WEN DONG)
1181100678(NG WEN DONG)
Hypothesis: The larger the volume of water consumed, the larger the volume of urine excreted.
Procedures:
1. The night before the experiment, the participating students are not to consume any food or drinks after 10.00p.m.
2. Students are divided into four groups according to their average weight.
3. On the day of the experiment, each student drinks 500ml of distilled water in the morning one hour before the experiment.
4. Each student empties his or her urinary bladder and collects the urine sample at the beginning of the laboratory period.
5. Measuring cylinders are used to measure the volumes of these samples. These volumes are taken as the volume of urine excreted at the beginning of the experiment.
6. Immediately after that, each group is assigned to drink various amounts of distilled water.
Group 1 : 250ml of distilled water
Group 2 : 500ml of distilled water
Group 3 : 750ml of distilled water
Group 4 : 1000ml of distilled water
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1181101586 (ARRVEEN KUMAR A/L SURESH KUMAR)
1181101586 (ARRVEEN KUMAR A/L SURESH KUMAR)
 
Hypothesis: A person's weight is a continuous variation.
Steps
1) 10 student is randomly selected in the class.
2) The weight of each student in the class is measured and recorded.
3)The result is then grouped into different ranges.
4)A histogram for the number of students against weight is drawn.
5)A curve is drawn joining the midpoint of the top of each box to form a normal curve . 
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1181100738( LIEW YEE SEN, T1A )
1181100738( LIEW YEE SEN, T1A )
Hypothesis: The larger the weight, the deeper the depth.

Steps: 
1. Prepare two iron ball it's 1kg and 3kg, ring stand, rope, scissor, ruler and sticky block.
 
2. Use ring stand and rope binding 1kg iron ball and put the sticky block under the iron ball. 

3. Using scissor cut the rope and let the iron ball fell on the sticky block. 

4. Measure and record the depth that the iron ball fell on the sticky ball. 

5. Repeat the step 2-4 and using 3kg iron ball. 

6. Conclude it the deeper the depth with which weight of iron ball.


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1171102640(Hood)
1171102640(Hood)
 Hypothesis: increasing the temperature increases the rate of evaporation of water
steps:
1)the temperature increases which causes the molecules to move faster and more vigorously and increases the kinetic energy of the molecules .
2)the molecules with the higher temperature will escape to the surface and then evaporates.
3) if the water is in room temperature the molecules will stay stable 
4)so the molecules will not escape to the surface because it wont have kinetic energy and its not going to evaporate
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1171103841(Toh Tao Jie
1171103841(Toh Tao Jie
Hypothesis : The presence of yeast will affect the expansion of balloon.

Steps:
1. Fill the bottle up with about one inch of warm water.
( When yeast is cold or dry the micro organisms are resting.)
2. Add all of the yeast packet and gently swirl the bottle a few seconds.
(As the yeast dissolves, it becomes active – it comes to life! Don’t bother looking for movement, yeast is a microscopic fungus organism.)
3. Add the sugar and swirl it around some more.
Like people, yeast needs energy (food) to be active, so we will give it sugar. Now the yeast is “eating!”

4. Blow up the balloon a few times to stretch it out then place the neck of the balloon over the neck of the bottle.
5. Let the bottle sit in a warm place for about 20 minutes
If all goes well the balloon will begin to inflate!



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1181100425 (Lee Woei Jye, T1A)
1181100425 (Lee Woei Jye, T1A)
Hypothesis:the longer the length of simple pendulum,the longer the oscillation.
Procedure
1)The thread is tied to the pendulum bob.The other end of the thread is tied around the arm of the retort stand so that it can swing freely.The length of the pendulum,l is measured to 80cm as per the diagram.
2)With the thread taut and the bob at rest,the bob is lifted at a small amplitude (of not more than 10°).Ensure that the pendulum swings in a single plane.
3)The time for ten oscillations of the pendulum is measured using the stopwatch.
4) Step 3 is repeated , and the average of both readings are calculated.
5)The period of oscillation,T is calculated using the average reading divided by the number of oscillations i.e. 10.
6)T² is calculated by squaring the value of T.
7)Steps 1 to 6 are repeated using l=70cm,60cm,50cm,and 40cm.
8)A graph T² versus l is plotted
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1181100967 ( Lee Zhi Yang, T2A)
1181100967 ( Lee Zhi Yang, T2A)
Hypothesis: If more water is taken, more urine will be relaesed.
Procedures:
1) Two students are chosen at random and instructed to empty their bladders before the start of the experiment.
2) 200ml of water is measured and put  into the mug.
3) Student A and B are given 200ml of mineral drinking water to drink.
4) A stopwatch is started immediately after consuming the water.
5) During the experiment, they are kept within 2 hours.
6) They are instructed not to eat and perform any vigorous physical activities.
7) After half and hour, they are asked to empty their bladders.
8) The collected urine is kept in a large beaker.
9) At the interval of half and hour, until two hours, students empty their bladders.
10) After two hours, the total collected urine is measured using measuring cylinder.
11) Repeat steps 2-10 for different amount of drinking water ( 400ml, 600ml, 800ml, 1000ml ) for student A while the same amount of drinking water ( 200ml, 200ml, 200ml, 200ml ) for student B.
12) Step 11 is conducted for four consecutive days in a fixed time and place.
13) Measure and record the collected data into a table. 
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1181100850 (Wong Cong Zhi , T1)
1181100850 (Wong Cong Zhi , T1)
Hypothesis:  The deeper the actual depth, the deeper the apparent depth.
Steps:
1. A pin is mounted in a movable clamp on a retort stand.
2. Another pin is placed at the base  of the tall beaker. Water is filled as the actual depth to D= 7.0cm
3. The object pin O is observed form the top, and pun I is adjusted vertically until it appears to meet pin O. At this point, the position of pin I matches the apparent depth, d of pin ). The apparent depth is measured fro, the top of the water level to the position if pin I.
4.Step 4 is repeated by changing the actual depth to 9.0cm , 11.0cm , 13.0cm and  15.0cm.
5.The result are tabulated and a graph of D against d is plotted.

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1181100235(LOW QZHI YEE,T1A)
1181100235(LOW QZHI YEE,T1A)
Hypothesis:The presence of manganese(IV) oxide catalyst increase the rate of decomposition of hydrogen peroxide
Steps:
1)Fill water in the burette until it s full
2)Invert the burette in a basin of water and clamp the burette vertically
3)Adjust the water level in te burette and record the initial burette reading.
4)Measure and pour 50cm^3 of 0.5moldm^-3 of hydrogen peroxide into a conical flask.
5)Add a pinch of manganese(IV) oxide into the conical flask 
6)Close the conical flask immediately with stopper fitted with delivery tube.Start thestopwatch.
7)Collect 25cm^3 of oxygen gas released by downward displacement of water.
8)Swirl the conical flask throughout the experiment
9)Record the time taken to collect 25cm^3 of oxygen gas.
10)Repeat steps 1 to 9 with 50cm^3 of 0.5 moldm^-3 of hydrogen peroxide without the addition manganese (IV) oxide.
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1181100488 (Kuan Yong Qing, T1)
1181100488 (Kuan Yong Qing, T1)
Hypothesis:  
When the length, L, of a wire increases, its resistance, R, increases.
Steps: 
1. A 20.0 cm long eureka wire is connected between terminals X and Y.
2. Circuit is switched on and the rheostat is adjusted until the ammeter reading, is 0.5 A.
3. The reading, V, shown on the voltmeter is recorded.
4. The experiment is repeated using different lengths of eureka wire, L = 40.0 cm, 60.0 cm, 80.0 cm, and 100.0 cm.
5. Resistance, R, of the wire is calculated.
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1181100721(Ong Han Bin,T1A)
1181100721(Ong Han Bin,T1A)
Hypothesis: The air from different environments does not contain the same amount of solid pollutants.

Steps:
1.Five slides are prepared and labelled A,B,C,D and E.
2.A piece of cellophane tape with the adhesive surface facing upwards is stuck on each slide. 
3.The slides are  placed at five spots in five different types of environments.
 a)Slide A is placed in a closed Petri dish
b)Slide B is attached to a lamp post in a car park.
c)Slide C is placed in an open field.
d)Slide D is placed in a classroom.
e)Slide E is placed in an air-conditioned room.
4.All slides are left aside for a week.
5.All slides are collected after one week and each is viewed under a microscope using a low power.
6.The results is then be recorded.
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1181101099 (Tan Chun Keat , T2A)
1181101099 (Tan Chun Keat , T2A)
Hypothesis : The longer the wire , the higher the resistance.

Steps : 
1. A eureka wire is connected in the circuit together with the ammeter , voltmeter , battery , switch and rheostat using a connecting wire.
2. The length of eureka wire between two connecting points is adjusted to 20cm.
3. The switch is closed and the rheostat is adjusted until the ammeter reading , I is 0.5A. 
4. Step 3 is repeated for wire lengths 40cm , 60cm , 80cm and 100cm.
5. The resistance , R = V/I is calculated for each length.
6. A graph of R against I is plotted.

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1181100805 (Tan Zhan Jun
1181100805 (Tan Zhan Jun
Hypothesis: The diffusion of molecules through a semi-permeable membrane is based on the size of the molecules.

Steps:
1. A Visking tubing is soaked in water for a minute to soften it. 
2. One end of the Visking tubing is tied firmly with a piece of cotton thread of prevent leakage.
3. The Visking tubing is filled with 5 ml of glucose solution and 5 ml of starch suspension.
4. The other end of the Visking tubing is tied with another piece of thread. The colour of the solution is recorded.
5. The outer surface of the Visking tubing is rinsed with distilled water.
6. 400 ml of distilled water and 15 ml of iodine solution are mixed in a beaker. The colour of solution is recorded.
7. The Visking tubing is immersed in the beaker of solution and left to stand for 40 minutes.
8. After 40 minutes, the Visking tubing is transferred to a dry beaker.
9. The colour of the solutions in the Visking tubing and the beaker is observed and recorded.
10. Both solutions are tested for the presence of glucose using Benedict's solution.
11. 2 ml of each solution are poured into separate test tubes and 1 ml of Benedict's solution is then added to each test tubes.
12. The solution is heated in a boiling bath for about 5 minutes and the change in colour is then recorded.
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1181101874 (Erica, T3A)
1181101874 (Erica, T3A)
Hypothesis: The larger the weight, the longer the spring extension.
 
Steps:
1. The apparatus is setup as shown in the diagram.
2. The length of the spring without any weights, l0 is measured using the metre rule with the pin as reference. 
3. A 50 g weight is hung from the bottom of the spring. The new length of the spring, l is measured. The spring extension is l – l0.
4. Step 4 is repeated with weights 100 g, 150 g, 200 g, and 250 g.
5. A graph of spring extension, x against weight, F is plotted.
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1171103805 Tan Pei Kuan
1171103805 Tan Pei Kuan 
Hypothesis: Guava juice contains a higher concentration of vitamin C compared to orange juice and pineapple juice.

Steps:
1. Label four boiling tube as A, B, C and D.
2. Place 1ml of DCPIP solution in each boiling tube. 
3. Fill a syringe with 5ml of ascorbic acid solution.
4. Immerse the needle of the syringe in the DCPIP solution drop-by-drop.
5. Do not shake the tube vigorously.
6. Record the volume of ascorbic acid solution used to turn the DCPIP solution colourless using a syringe.
7. Repeat steps 2 to 7 using guava juice, pineapple juice and orange juice.
8. Calculate the percentage and concentration of vitamin C in these three types of fruit juice.

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1181101480 Luwe Yee Jia
1181101480 Luwe Yee Jia
Hypothesis: Does music have an affect on plant growth?

Steps:
1. Prepare two identical plants. 
2. Separate the position of two plants.
3. Grow a plant with music playing every day, and another one without music playing.
4. Two weeks later, record the length and width of stem and the number of leaves of both plants. 
5. If the plant with the music playing grew stronger and bigger, the hypothesis is accepted. 

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c
 c
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e potential difference ac
 e potential difference across the terminals of dry cells decrease w
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with stain. 2. Fill 2 b
  with stain.
2. Fill 2 basin with 1000ml of hard water and 1000 ml of so
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HEW ZHONG KEN (1181101119)
HEW ZHONG KEN (1181101119)
hypothesis : As the sucrose solution reach certain concentration (isotonic to the cell sap).there is no changes in the length of potato strip

steps:
1.six test tube are labelled P Q R.S,T and U.
 2.Test tube P is filled with 10ml distilled water, test tube Q is filed with 10ml sucrose solution O 1M test tube R is filled with 10ml sucrose solution 0.2M test tube S is filled with 10ml sucrose solution 0,3MThs tube is filled with 10ml sucrose solution 0.4M and test tubes U is filled with 10ml sucrose solution 0.5M 
3.The cork borer is pushed into the potato and the potato strip is obtained by pushing it out of the cork borer using a glass rod 
4.The potato strips are cut to the exact length of 5 cm 
5.One potato cylinder is placed in each labeled test tubes for 30 minutes 
6. After 30 minutes the potato strips are removed from the test tube and gently wiped with filter paper 
7 The final length of the potato strips are measured and record using a ruler 
8. The final length of the potato strips are recorded in a result table .
9. A graph of the concentration of sucrose solution against the change in the length is plotted Presentation.

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117
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Sim Shin Xuan 1181101676
Sim Shin Xuan 1181101676
Hypothesis: Human height is a continuous variation.
Steps
1) 5 student is randomly selected in the class.
2) The height of each student in the class is measured and recorded.
3)The reslult is then grouped into different ranges.
4)A histogram for the number of students against height is drawn.
5)A curve is drawn joining the midpoint of the top of each box to form a normal curve .
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Goh Wei Xuan 1171103226
Goh Wei Xuan 1171103226
Hypothesis:
The balloon become bigger.
Steps:
Carefully pour the vinegar into the bottle.
This is the tricky part: Loosen up the balloon by stretching it a few times and then use the funnel to fill it a bit more than half way with baking soda. If you don’t have a funnel you can make one using the paper and some tape.
Now carefully put the neck of the balloon all the way over the neck of the bottle without letting any baking soda into the bottle.
 Lift the balloon up so that the baking soda falls from the balloon into the bottle and mixes with the vinegar. Watch the fizz-inflator at work!
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Tan Zhe Wen 1171103472
Tan Zhe Wen 1171103472
Hypothesis:
 the larger the surface area the more diffusion can occur.
Steps:
 1- Cut the agar into five different-sized cubes (from 2mm to 10mm) using a sharp razor and calipers on a white tile
2- Add 5cm3 of  1M of hydrochloric acid to each of the boiling tubes and label the boiling tubes with the size of the agar cube
3- Manipulate the cubes into the boiling tube and start the stopwatch on contact of acid and agar. Make sure to not touch the cube as liquid make diffuse in or out of the agar on touch
4- Stop the stopwatch when the cube goes a light orange from a dark brown / orange in the cube
5- Record the results and plot a graph 
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LOH ZHI XIN(LM01)
LOH ZHI XIN(LM01)
1171103122
Hypothesis: The longer the length of a simple pendulum, the longer the period of oscillation 
Steps: 
The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum, l is measured to 80 cm as per the diagram.
With the thread taut and the bob at rest, the bob is lifted at a small amplitude (of not more than 10°). Ensure that the pendulum swings in a single plane.
The time for ten complete oscillations of the pendulum is measured using the stopwatch.
Step 3 is repeated, and the average of both readings are calculated.
The period of oscillation, T is calculated using the average reading divided by the number of oscillations, i.e. 10.
T2 is calculated by squaring the value of T.
Steps 1 to 6 are repeated using l = 70 cm, 60 cm, 50 cm, and 40 cm.
A graph T2 versus l is plotted. 
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Seet Wan Ting (1181100261)
Seet Wan Ting (1181100261)
Hypothesis: Antibiotic can penicillin kills bacteria.
Steps:
1:Using sterile petri dishes and nutrient agar, set up two petri dishes A and B.
2:Then contaminate the nutrient agar by adding a little culture of Bacillus subtilis in each dish and swirl the dishes to spread out the culture solution evenly.
3:Place a penicillin tablet in the middle of dish A.
4:Tape the two dishes with sellotape. Invert the dishes and incubate the bacteria at room temperature for 2 days.
5:Observe the two dishes after 2 days.
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1181101768 (Loong Jiehyi)
1181101768 (Loong Jiehyi) 
Hypothesis:The greater the mass, the greater the inertia. 
Steps:
1. One end of jigsaw blade is clamped to the leg of the table using a G-shaped clamp. 
2.A 20g of plasticine ball is fixed at the free end of the blade. 
3.The free end of the blade is displaced horizontally and released so that it oscillates. The time for 10 complete oscillation is measured using stopwatch and this step is repeated 2 times.The average for 10 complete oscillation is calculated. Then the period of oscillation is determined. 
4.Steps 2 & 3 are repeated by replacing 20g of plasticine ball with masses of 40g,60g,80g,and 100g.
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Grace Goh Man Jing (1171103751
Grace Goh Man Jing (1171103751
Hypothesis: Vinegar will affect the fruits to last longer 

Steps: 1) Prepare the fruit you want to use, add vinegar into a pot and allow vinegar to come to a boil.
            2) Add salt ,chilli powder ,coarse brown sugar and continue to boil.
            3) Add dried fruit to mixture and allow to boil for few minutes until mixture thickens.Stir continuously to avoid burning or scorching.
            4)Remove from stove and allow to cool before bottling.
            5) Store in refrigerator. After 1 week , you can find that the fruits still not rancid and still can eat.
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TAN XIN YEE (1171103467)
TAN XIN YEE (1171103467)
Hypothesis : Pure iron rust faster than steel while stainless steel does not rust easily.

Steps: 
1.Three test tubes are half-filled with jelly solution and are labelled as A,B and C.

2. 1cm3 of potassium hexacyanoferrate  (III) solution is added to every test tube.
 
3. An iron nail, a steel  nail and a stainless steel nail are polished with sandpaper to remove any rust formed. Then nails are then placed in the three test tubes labelled A,B and C respectively

4. All three test tubes are allowed to stand for 5 days before they are examined. 

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Lau Xin Lin (1171103689)
Lau Xin Lin (1171103689)
Hypothesis: 
Slime is made from white craft glue and liquid starch.

Steps:
1.  Pour all of the the glue into the mixing bowl.

2. Pour all of the water to the mixing bowl with the glue.

3. Stir the glue and water together.

4. Add your food color (about 6 drops).

5. Now add the liquid starch and stir it in.

6. As you play with your slimy concoction, it will become more stretchy and easier to hold.

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Shaun Lee Xuan Feng (1181101402)
Shaun Lee Xuan Feng (1181101402)
Hypothesis : Detergent can remove scum with hard water.

1. Prepare 2 cloths with stain.
2. Fill 2 basin with 1000ml of hard water and 1000 ml of soft water respectively.
3. Place a cloth into each basin and leave it for a minute.
4. Pour 100ml of detergent and 100ml of soap into each basin respectively.
5. Stir the mixture well.
6. Leave it for 30 minutes.
7. Record the observations in a table.
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SAMIA NADEEM (1171103189)
SAMIA NADEEM (1171103189)
Hypothesis: Plants need light to grow

1. Fill 6 pots with soil.
2. Plant one bean seed in each pot. Make sure you gently cover each seed with a shallow layer of soil.
3. Place three of the pots outside in a spot that receives lots of sunshine. If the weather is too stormy or overcast, position the pots under a grow light.
4. Place the remaining three pots in a dark cupboard.
5. Spray all your planted seeds gently with a mister.
6. Now it's time to wait. To get the best results, you'll want to observe your seeds for at least three weeks. Make sure you use the mister every couple of days.
7. At the end of each week, take a close look at each of your pots.
8.Once a full three weeks have passed,did the absence of light make a difference?
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1171103274(NG JIA XUAN)
1171103274(NG JIA XUAN)
Hypothesis: If more water was be taken, more urine will be released.

STEP:
1. Choose two students and instruct them to empty their bladders before experiment start.
2. Give student A 400 ml and student B 800 ml  of mineral water to drink.
3. Start the stop watch immediately after consuming the water.
4. Instruct the students not to eat or perform vigorous physical activity.
5. Ask the students empty their bladder after half an hour.
6. Collect the urine in a large beaker.
7. Measured the urine by using measuring cylinder.
8.Record the data collected into a table.
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LM02 NG YIN YEN(1171103495)
LM02 NG YIN YEN(1171103495)
Hypothesis:The total momentum before collision is equal to the total momentum after collision,provided there are no external forces acting on the system.
Step:
1.The apparatus is set up as shown in the diagram.
2.Two trolleys A and B of equal mass are placed in contact with each other on an even and smooth surface.Two wooden blocks are placed on the same row at the end of each trolley respectively.
3.The vertical trigger on trolley B is given a light tap to release the spring-loaded piston which then pushes the trolleys apart.The trolleys collide with the wooden blocks.
4.The positions of the wooden blocks are adjusted so that both the trolleys collide with them at the same time.
5.The distances, Da and Db are measured and recorded.
6.The experiment is repeated with different masses of trolleys.
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Soh Chun Wei (1181100955)
Soh Chun Wei (1181100955)
Do an experiment to study 
Hypothesis : How many sugar percaentage in our unrine ?

1.Take 2 ml urine sample in a measuring cylinder from the urine sample bottle.
2.Take a test tube and pour the urine sample in it.
3.Take 5 ml Benedict’s reagent in a measuring cylinder.
4.Add Benedict’s reagent to the test tube that contains urine sample.
5.Using a test tube holder, hold the test tube firmly and heat it for 2 minutes on the burner.
6.Keep shaking the test tube while heating.
7.A yellow precipitate appears which indicates the presence of sugar in urine.
8.Depending upon the concentration of sugar in the urine, either green, yellow, or brick red precipitates are formed. 

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Tan Siong Kai 1171103861
Tan Siong Kai 1171103861
Hypothesis: Salt can increase the boiling point and  the freezing point of the water.

1.Prepare the apparatus needed such as ice, bunsen  burner, beaker , tripod stand ,thermometer, salt,resistance thermometer and water.
2.Half fill the beaker with water and boil it with bunsen burner on the tripod stand.Observe and record the maximum temperature.
3.Put some salt into a beaker which half fill with water and boil it.Record the maximum temperature it can acheive.
4.Pour the water into the beaker fill with ice .Observe and record the final temperature by thermometer.
5.Put some salt into the beaker fill with ice and water.Record the final temperature acheive by the resistance thermometer.


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HO WAN ER (1171103834)Hypothesis: Words are read faster than colors are named.
HO WAN ER (1171103834)Hypothesis: Words are read faster than colors are named.
Steps:

1. Prepare a list of words of colors and printed with different color. For examples, word "RED" but printed in yellow color.
2. Find two person of same age and same gender.
3. Give them the list of words.
4. Ask them to say the colors of the words instead of read the words as fast as they can.
5. Calculate the time they needed to say all the color correctly.
6. Determine whether they can say the color of words without hesitation.
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Annie Tan Sin Ling 1171103790 Hyphotesis : Presence of impurities will increase the boiling point of distilled water
Annie Tan Sin Ling 1171103790 Hyphotesis : Presence of impurities will increase the boiling point of distilled water
1. Pour 100cm³ of distilled water into a beaker
2. Heat up distilled water until it boils
3. Observe and record the boiling point by using thermometer
4. Repeat the experiment with mixture of distilled water and salt
5. You will observe that the boiling pointof mixture water and salt increase
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1171103531 Grace Ng Yee Lin
1171103531 Grace Ng Yee Lin
Hypothesis : Colour can help humans in memorizing process. 

(1) Prepare 4 copies of 50-70 words reading material with similar content but different colour of words
 Copy A and B : words in black colour
 Copy C and D : words in different colours 

(2) Find 4 peoples of the same age. 

(3) Let four of them to memorize the material in 15 minutes. 

(4) After 15 minutes, ask them to read out the content without looking at the material. 

(5) Determine who can remember more. 
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Lm01 Jane Lee Le Xuan 1171103547
Lm01 Jane Lee Le Xuan 1171103547
Hypothesis:
During the change of state of naphthalene from liquid to solid,there is no change in temperature.

1. The apparatus set up as shown in the diagram.
2. The naphthalene is heated until the temperature reaches 95°C.
3. The boiling tube is then removed from the water bath and the outer part of the tube is dried.
4. The temperature of the naphthalene is recorded every minutes until the temperature drops to about 60°C
5. A graph of temperature against time is drawn.
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LM01 TAN YING HUI
LM01 TAN YING HUI 
1171103826
Hypothesis : The potential difference across the terminals of dry cells decrease when the current supplied by the cells increase 
procedure:
1.A circuit as shown in the diagram above is set up. 
2.The switch is started. The rheostat is adjusted until the ammeter reading shows 0.2A. 
3.Step 2 is repeated with current values of 0.3A, 0.4A, and 0.5A. 
4.A graph of V against I is plotted. The slope of the graph is calculated and the V-crossing is extrapolated. 
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1171103778 Cristy Fo Hui Chi
1171103778 Cristy Fo Hui Chi 
Hypothesis: Gases expand when heated.
Steps :
Use a pair of scissors to make a hole in the top of the bottle lid, big enough for the drinking straw to fit through.
Fill the bottle halfway with cold water.
Add a few drops of food colouring and mix.
Screw on the bottle lid and insert the straw through it into the water, making sure that the straw does not touch the base of the bottle.
Seal around the hole in the lid using play dough, thereby fixing the straw in place. The seal must be completely airtight.

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LM01
LM01 
1171103443
Leom Teng Xiang
Hypothesis: The angle of reflection is equal to the angle of incidence.
Steps:
1. A ripple tank is set up.
2. A plane reflector is place in the middle of the tank so that it is parallel with the incident wavefronts. The reflected waves are observed through the stroboscope. 
3. The reflector is then adjusted so that the incident waves approach the reflector at incident angle of 20°, 40°, 60° and 80°. For each situation, the reflected angle is observed.
4. The wavelegth of incident length and reflected waves are observed and compared.
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Inclined Planes
Inclined Planes
Hypothesis: The larger the angle of incline, the higher the velocity before reaching the end of the runway.
Aim: To study the relationship between the 
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1171103555 (Kuan Kah Ming)
1171103555 (Kuan Kah Ming)
Hypothesis: When the length of the pendulum increase, the oscillation time increase
Experiment procedure:
1. Two thread are prepare with length of 5cm and 10cm
2. A pendulum is attach to the 5cm thread on retort stand.
3. The pendulum is pull to the height of 50cm measured from the meter rule behind the retort stand.
5. The pendulum usb released and the time of oscillation is recorded.
6. The result are recorded.
7. Tabulate the data.
8. Step 1 until 7 is repeated with the thread of 10cm

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Inclined Planet
Inclined Planet 
Hypothesis : The larger the angle of incline , the higher the velocity just before reaching the end of the runway
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LM01 Ong Jie Ying (1171103488)
LM01 Ong Jie Ying (1171103488)
Hypothesis: The air from different environments does not contain the same amount of solid pollutants.
 
Steps : 
1) Prepare 5 slides and label A, B, C, D and E.
2) A piece of cellophane tape with adhesive surface facing upward is stuck on each side. 
3) Place the slide at five spots in five different types of environments.
   a) Slide A - place in a closed Petri dish 
   b) Slide B - place in an open field
   c) Slide C - place in a classroom 
   d) Slide D - place in an air-conditioned  room 
   e) Slide E - attach it to a lamp post in a car park 
4) All slides are left aside for a week. 
5) All slide are collected after one week and each viewed under a microscope using a low power.
6) Record the observation in a table.
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LM02 Chua Kai Ying (1171103782)
LM02 Chua Kai Ying (1171103782)
Hypothesis: The longer the length of a simple pendulum, the longer the period of oscillation.

Steps:
1) The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum is measured to 80cm.
2) With the thread taut and the bob at the rest, the bob is lifted at a small amplitude(not more than 10°)Ensure the pendulum swings in a single plane.
3) The time for ten complete oscillations of the pendulum is measured using the stopwatch.
4) Step 3 is repeated and the average of both readings are calculated.
5) The period of oscillation, T is calculated using the average reading divided by the number of oscillations.
6) T² is calculated by squaring the value of T.
7) Step 1 to 6 are repeated using the length of 70cm, 60cm, 50cm and 40cm.
8) A graph is plotted.
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LM01 Lim Hui Ying
LM01 Lim Hui Ying
(1171103523)
Hypothesis : The longer the wire, the higher the resistance.
1.A eureka wire is connected in the circuit as shown in the diagram.
2.The length of the wire between X and Y is adjusted to 20 cm.
3.The switch is closed and the rheostat is adjusted until the ammeter reading , I is 0.5A.The voltmeter reading is recorded.
4.Step 3 is repeated for wire lengths 40cm,60cm,80cm and 100cm.
5.The resistant ,R =V/I is calculated for each length.
6.A graph of R against I is plotted.
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LM 01 Elaine Khoo Sue Mae
LM 01 Elaine Khoo Sue Mae
(1171103416)
Hypothesis: The angle of reflection is equal to the angle of incidence
Steps:
1) A ripple tank is set up.
2) A plane reflector is placed in the middle of the tank so that it is parallel witg the incident wavefronts.The reflected waves are observed through a stroboscope.
3)The reflector is then adjusted so that the incident was approached the reflector at incident angles of 20°,40°,60°.
4)The wavelength of the incident and reflected waves are observed as compared.

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LM01
LM01
Ong Jing Song 1171103047
Hypothesis : Using artificial light will affect the growth on plant.

Put potting soil into the 2 plant pots, and bury a bean seed under half an inch of soil in each pot.
Mist the soil gently so that the beans have water.
Place 1 plant in a box.
Put the light bulb in the desk lamp.
Place the lamp over the box so that the light does not escape from the box. Make sure that it is not touching any paper!
Turn the light on every morning and turn  off every evening.
Place your second bean seed in a sunny window. Make sure that the soil stays damp, but not too wet.
After a week, you will likely see a sprout coming out of the soil. Wait for another week or more, then turn on the light in the room and take a photo of each bean plant. Label the photos with the type of light the plant received. 
Wait for two weeks or more, then take a photo of each plant and observe what has happen to each plant
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LM 01 Russel Lim Feng Han (1171103424)
LM 01 Russel Lim Feng Han (1171103424)
Hypothesis: Aerobic exercise are healthy way to help loss weight
Step:
1.	Randomly select 100 students from the collage which weight between 58kg to 68 kg
2.	Evenly divide 100 of students into two group, experimental group and control group
3.	Experimental Group will joining an aerobic program for a month and control group will be taking weight loss supplement for a month
4.	After one month , carry out a test which include weight ,BMI ,body fat content test.
5.	The result show both group have significantly loss weight but the control group may facing side effect for using fat loss supplement, so the result show aerobic exercise are more healthy in term to loss weight

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Yap Jin Hong - 1181100731
Yap Jin Hong - 1181100731
(T1A)
Hypothesis:The rate of transpiration in a leafy shoot is higher than the rate of transpiration in a shoot without leaves.

1. Cut a balsam shoot under water to prevent air from entering the xylem.

2. Fill potometer with water,make sure no air bubble inside and insert balsam shoot through under water.

3. Open tap of water reservoir to fill the graduated capillary tube with water.

4. The air bubbles move from B to A when transpiration occur.

5. The experiment can repeated a few times to find the average reading for rate of transpiration
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Nur Sarah Najihah Binti Nor Alahyadi,T2A (1181101195)
Nur Sarah Najihah Binti Nor Alahyadi,T2A (1181101195)
Hypothesis: Volcanic clay mask actually works in tightening skin pores.

1)      Randomly select a large number of people from the whole population who has big pores
2)      Randomly divide them into 2 groups; an experimental group and a control group.
3)      Treat the two groups exactly the same (giving skin treatment using masks) except that I give the experimental group treatments with volcanic clay mask and I give the control group a placebo, that is, regular clay masks that do not have anything beneficial to pores and skin.
4)      Conduct the study double-blind. That is, I make sure that neither the dermatologists nor the subjects know which of the subjects is getting the volcanic clay mask and which is getting the placebo.
5)      The experiment was handled for 2 weeks and the subjects were not allowed to use any other skincare products to actually see if the volcanic clay mask works.
6)      After two weeks, the progress of subjects’ skins were examined. If the experimental group skins’ pores are tighten and the skins’ condition were better than the controlled group, it can be concluded that volcanic clay mask actually helps in tightening skin pores.

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Angelina Chow (1181100481)
Angelina Chow (1181100481)
Hypothesis : Plants grow healthily in a complete Knop's solution.
Steps :
1) Randomly select 40 maize seedlings regardless of seedlings' size and species and divide them into Group A and Group B.
2) Place the maize seedlings into glass jars which are connected to an air pump to provide aeration to the roots so that respiration can take place.
3) Fill the jars of Group A with Knop's solution without magnesium and Group B with complete Knop's solution (Containing all the nutrients needed by plants).
4) Wrap the glass jars with black paper to prevent the growth of green algae which will deplete the nutrient content and affect the experiment.
5) Replace both solutions every week to replenish the nutrients absorbed by the maize seedlings.
6) Treat both groups exactly the same in terms of the volume of solutions given, place of experiment and etc except for the type of Knop's solutions
7) Record all observations on the growth of each plants in both groups after one month.
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LM01
 LM01 
1171103400
Ng Qing Ya
Hypothesis: While doing revision listening to music will affect learning progress.

1. Randomly select 50 students from one class.

2. Randomly divide them into two groups: one group leave them studying while listening to music, the next group just studying in a quiet place.

3. After that, let all of them taking a quiz.

4. Result show that the group of students who study in a quite place were getting a better exam grade than students study while listening to music.
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LM01 1171103153 Tham Jie Shi
LM01 1171103153 Tham Jie Shi
Hypothesis:Lemon is acidic enough to carry an electric charge and act as a battery
Steps:
1)Prepare two lemons,a sharp knife,three 4'' pieces of copper wire,six alligator clips,1.5V mini light bulb and holder,Galvanized nail (nail covered in zinc),and penny or thick copper wire.
2)Carefully use a sharp knife to cut two slits in each lemon about 1/2'' deep. Make sure that the inside of the lemons are exposed. If the skin is thick, make the insertion deeper until the fruit is exposed.
3)Insert the copper wire or penny into one slit and the nail into the other slit for each lemon.
4)Attach an alligator clip to each end of each piece of wire.
5)Attach one end of the first wire to the nail in the first lemon. Attach the other end of this wire to the light bulb.
6)Connect a second wire from the copper wire in the second lemon to the light bulb.
7)Lastly, using the third wire, connect the nail in the second lemon to the copper wire in the first lemon.
8)Observe what happens to the light bulb.
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Lim Yu Jie(1181101201)
Lim Yu Jie(1181101201)
Hypothesis : The greater the heat supplied to water of fixed mass, the greater the rise in temperature of water.
 
Steps:
1) Prepare 0.5l of water in a kettle and put it on induction cooker.

2) Measure the initial temperature of water by using thermometer.

3) Then, press the start button and Increase the temperature of the cooker to 50 0C to boil the water.

4) After 5 minutes, stop the cooker and quickly measure the final temperature of water. Then calculate the rise in temperature of water.

5) Repeat the experiment by increasing the temperature level of cooker to 60 0C, 70 0C and 80 0C with constant volume of water and time taken.
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Bok Hui Ling ( 1181100160 )
Bok Hui Ling ( 1181100160 )
Hypothesis: Music would affect dog’s behavior

Steps:
1)     Randomly selected 40 dogs and divided them into two groups.
2)     Experiment are carried out in same location, with the same lighting, furniture, and conditions every time.
3)     A group of dogs are tested with music.
4)     The control group would be used to set a baseline behavior, and how dogs behaved without music.
5)     The other group could then be observed and the differences in group’s behavior could be analysed.
6)     It was found that dogs do show more relaxed and calm behaviors when specific type of music plays.



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LM01 Er Pei Ling (1171103502)
LM01 Er Pei Ling (1171103502)
Hypothesis: Impurities would effect the boiling point of water.
Steps:
1) Prepare the two beakers which contain the distilled water and labelled them as Beaker A and Beaker B.
2) Add common salt into the Beaker A, while the Beaker B remains unchanged.
3）Heat the Beaker A and Beaker B until them boil.
4) Record the boiling point of the Beaker A which contains the mixture of distilled water and the common salt, and also record the boiling point of the Beaker B which is just containing the distilled water.

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Pendy Tok (1181101110)
Pendy Tok (1181101110)
Hypothesis: Living environment affects the rate of survival in nature.

Steps:
1. Randomly select 40 bunnies and divide them into 2 groups which are Group A and Group B regardless of colour and variety.
2. Both groups are treated exactly alike, except the living environment. Group A lives under humans' care while Group B lives in wildlife sanctuary. 
3. Both groups' conditions are under control by injecting bioelectronic chips into the bunnies to ensure the survival of bunnies before the experiment starts.
4. After half a year of preparation, all the bunnies have grown up. Both groups are released to the wild.
5. Observations on the survival of rabbits in long duration are recorded.
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LM01 Low Siew Hui 1171103394
LM01 Low Siew Hui 1171103394 
Hypothesis:The battery would effect the function to light bulb
Steps:
1)Prepare two battery, battery A have function, battery B have no function 
2)Put each battery in each light bulb.
3)Open the suis
4)Observe the result after the experience and record it. 
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LM01 Liang Hui Li (1171103330
LM01 Liang Hui Li (1171103330
Hypothesis:The amount of water given would effect the growth of plant.
 Steps:
 1)Prepare two flower pot , each flower pot contains the same amount and type of soil.
2)Put 10 bean seeds into each flower pot.
3)Place both of the flower pot in the same window.
4)Flower pot A would be watered everyday in the morning while flower pot B would not get watered.
5)Observe the result after one month.
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LM01 Gan Qian Han (117110
 LM01 Gan Qian Han (1171103276)
LM01 Gan Qian Han (1171103276)
Do a experiment for study
1) a good student come in the last class
2) everyone in the last class was lazy and do their own things, didn’t want to listen to the teacher 
3) the good student will felt uncomfortable for being good and start to being bad to get in that last class 
4) at last, the good student becomes a bad student just like other 
This experiment show that a person would felt uncomfortable when other people act not like them. He will try to act like them although he thinks that he and the other are doing the wrong things. But, he want to be same with other, so he also done the wrong things 
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LM01 Gan Qian Han (1171103286）
LM01 Gan Qian Han (1171103286）
Do a experiment for study
Hypothesis: A reaction of good student after go to the last class
Steps:
1) a good student come in the last class
2) everyone in the last class was lazy and do their own things, didn’t want to listen to the teacher 
3) the good student will felt uncomfortable for being good and start to being bad to get in that last class 
4) at last, the good student becomes a bad student just like other 
This experiment show that a person would felt uncomfortable when other people act not like them. He will try to act like them although he thinks that he and the other are doing the wrong things. But, he want to be same with other, so he also done the wrong things 
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]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 14:53:21 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274323312</guid>
      </item>
      <item>
         <title>1171103233 Chan Kar Lit</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274323471</link>
         <description><![CDATA[<div>Hypothesis : The total momentum before collision is equal to the total&nbsp; momentum after collision, provided there are no external forces acting on the system.<br><br>Procedure:<br>1. Give two trolleys A and B that same mass are placed in contact with each other on a smooth surface.Two wooden blocks are placed on the same row at the end of each trolley.<br>2. The vertical trigger on trolley B is given a light tap to release the spring-loaded piston which then pushes the trolleys apart. The trolleys collide with the wooden blocks.<br>3. The position of the wooden blocks are adjusted so that the trolleys collide with them at the same time.<br>4. The distances of both trolleys to the wooden blocks are measured and recorded.<br>5. The experiment is repeated with different masses of trolleys.&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 14:53:46 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274323471</guid>
      </item>
      <item>
         <title>1181100409 Leong Hang </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274338520</link>
         <description><![CDATA[<div>Hypothesis :&nbsp; The more the amount&nbsp; of baking soda or vinegar is added, the higher the eruption of the baking soda volcano.&nbsp;<br><br>Procedure:</div><ol><li>First, make the 'cone' of the baking soda volcano. Mix 6 cups flour, 2 cups salt, 4 tablespoons cooking oil, and 2 cups of water. The resulting mixture should be smooth and firm (more water may be added if needed).</li><li>Stand the soda bottle in the baking pan and mold the dough around it into a volcano shape. Don't cover the hole or drop dough into it.</li><li>Fill the bottle most of the way full with warm water and a bit of red food color (can be done before sculpting if you don't take so long that the water gets cold).</li><li>Add 6 drops of detergent to the bottle contents. The detergent helps trap the bubbles produced by the reaction so you get better lava.</li><li>Add 2 tablespoons baking soda to the liquid.</li><li>Slowly pour vinegar into the bottle. Watch out - eruption time!</li></ol><div>Conclusion: Hypothesis is accepted.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-21 15:34:22 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274338520</guid>
      </item>
      <item>
         <title>1181101641 (Go Yong Chang T3A)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274342863</link>
         <description><![CDATA[<div>Hypothesis : Larger animals of the same species expand more energy than smaller animals of the same type.<br><br>Procedure :<br>1. Leave a 70-pound dog and a 30-pound dog in a room.<br>2. Provides both of them with a lot of bones.<br>3. Let them eat as many bones as they want.<br>4.  Observe and record how much food that each of them have ate.</div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/305450459/36d0155c368d0d7e97ed8825628ddd80/Samoyed_Puppies_2.jpg" />
         <pubDate>2018-08-21 15:47:34 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274342863</guid>
      </item>
      <item>
         <title>1171103380 (Dhiviyah Ramesh)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274475235</link>
         <description><![CDATA[<div>Hypothesis : The higher the temperature of the water, the greater the mass of sugar that dissolves in it.<br><br>Procedure :<br>1. 100 cm of water is measured using a measuring cylinder and is poured into 250 cm beaker.<br>2. The temperature of water is recorded using a thermometer.<br>3. A 100 cm beaker is filled with sugar. The beaker and its contents are then weighed and recorded as a gram.<br>4. The sugar is added a little at a time to the water in the beaker using a spatula. The mixture is then stirred using a glass rod.<br>5. The process is continued until no sugar can further dissolve in the water.<br>6. The beaker and its contents (sugar) are weighed again and recorded as b gram.<br>7. The amount of sugar that dissolved in the water at room temperature is ( a - b) gram.<br>8. The experiment is repeated by heating the water to temperature of 40,50,60 and 70 degree celcius respectively.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 02:47:08 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274475235</guid>
      </item>
      <item>
         <title>Lee Wei Yang 1181100308</title>
         <author>1181100308</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274478482</link>
         <description><![CDATA[<div>Hypothesis: Make your own rock candy<br><br>Procedure:<br><br></div><ol><li>Clip the wooden skewer into the clothespin so that it hangs down inside the glass and is about 1 inch (2.5 cm) from the bottom of the glass. (as shown)</li><li>Remove the skewer and clothespin and put them aside for now.</li><li>Get a helpful adult!</li><li>Pour the water into a pan and bring it to boil.</li><li>Pour about 1/4 cup of sugar into the boiling water, stirring until it dissolves.</li><li>Keep adding more and more sugar, each time stirring it until it dissolves, until no more will dissolve. This will take time and patience and it will take longer for the sugar to dissolve each time. Be sure you don’t give up too soon. Once no more sugar will dissolve, remove it from heat and allow it to cool for at least 20 minutes.</li><li>Have your friendly ADULT carefully pour the sugar solution into the jar almost to the top. Then submerge the skewer back into the glass making sure that it is hanging straight down the middle without touching the sides.</li><li>Allow the jar to fully cool and put it someplace where it will not be disturbed.</li><li>Now just wait. The sugar crystals will grow over the next 3-7 days.</li></ol><div><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 03:11:05 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274478482</guid>
      </item>
      <item>
         <title>1181100430 Tan Siao Wah</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274488954</link>
         <description><![CDATA[<div>Hypothesis: MMU student who doing revision more than MMU student who playing game in library.<br><br>Procedure:<br>1.Randomly observe 25 students from different table in the library.<br>2.Observe the student is doing revision or playing game.<br>3.Record the observation.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 05:03:52 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274488954</guid>
      </item>
      <item>
         <title>1171103353 LOH MIN YI</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274491349</link>
         <description><![CDATA[<div>Hypothesis：Bad word and good word will effect a person.<br><br>Procedure：</div><ol><li>Place 1 cup of Cooked Rice into two separate containers. Place a lid on each.</li><li>Mark one container with a positive phrase （E. g Thank you, I love you) </li><li>Mark the other container with a negative phrase. (e. g Stupid, ugly rice) </li><li>Place them in your kitchen at least 12 inches apart.</li><li>Once or more every day say aloud to the rice container the phrase written on it. For example, every time I went into my kitchen I would say “Thank You Rice” and “Stupid Rice” Try to say it from a place of gratitude (thank you) and a place of anger and frustration (stupid). </li></ol>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 05:36:17 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274491349</guid>
      </item>
      <item>
         <title>1181101729 Felix Kwong Kay Cheong</title>
         <author>felixkwong227</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274495956</link>
         <description><![CDATA[<div>Hypothesis: Money affects the honesty value in most people.<br><br>Procedure:&nbsp;<br>1. Prepare a money note such as Rm 10 and mark a dot to make sure that the note can be proven its ours.<br>2. Set up a camera from an angle that cannot be seen and wait for people to pass by that area.<br>3. Approach a random person from behind can pretend to pick up the money note which is already in your palm.<br>4. Tap the shoulder of the random person and ask him or her whether that money note belongs to them.<br>5. See their respond whether that they say that the money note belongs to them or not.<br>6. If their respond is yes, then it proves that they are not honest as it practically is not their money because that money note has a dot mark proving its ours.<br>7. If their respond is no, then it proves that they are being honest as they no its not their money and they will not take something that does not belong to them.<br>8. Therefore, there will definitely be people who will take the money although it does not belong to them as they are greedy and hungry for money, making their honest value be affected.<br>9. This proves that money can affect someone's honesty value. <br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 06:27:45 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274495956</guid>
      </item>
      <item>
         <title>1171103872 Lim Xin Roy </title>
         <author>1171103872</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274497422</link>
         <description><![CDATA[<div>Hypothesis :&nbsp; Dogs are able to see at least some shades of color.&nbsp;<br><br>Procedure :&nbsp;<br>&nbsp;(This experiment will be conducted in 3 phases )<br>1. Set up two different colors of cloths, which is light blue and green .&nbsp;<br>2.&nbsp; The dog will be trained to put it's paw on one of the cloth&nbsp; from the differently colors of cloths . In the first phase ,light blue is choose for the test. Reward the dog with a treat when it chooses the light blue cloth.&nbsp;</div><div>3. Train the dog until it keep choosing the light blue cloth.<br>4. Switch position of cloths once in the second phase.&nbsp; Reward the dog with a treat when it chooses the light blue cloth.&nbsp;</div><div>5. Keep switching the position of the cloths in the third phase. Reward the dog with treat when it chooses light blue cloth. &nbsp;<br>6. Record the observations.<br><br></div><div><br></div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/305907747/7290752b96feaf603ffda2fea650c863/shiba.png" />
         <pubDate>2018-08-22 06:39:44 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274497422</guid>
      </item>
      <item>
         <title>1171103511 Ong Kai Jaz</title>
         <author>1171103511</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274500158</link>
         <description><![CDATA[<div>Hypothesis:&nbsp; Computer game affects the human mental condition.&nbsp;<br><br>Procedure:<br>1. Prepare a computer game, Dota 2 for the first participant and the second participant carries on his life as usual.<br>2. Set up a camera to observe the first participant and another camera for the second participant.<br>3. Let the two participants carry out their task respectively for two days.<br>4. The first participant will play the computer game for two days and the second participant will carry on his life as usual.<br>5. After two days, check and record their mental condition.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 06:58:30 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274500158</guid>
      </item>
      <item>
         <title>1181100592 Lee Ming Ern</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274502367</link>
         <description><![CDATA[<div>Hypothesis: Cigarette smoke has no negative effect on plant growth.<br><br></div><div>Procedure:<br><br></div><ol><li>Get twenty small ceramic flower pots.&nbsp;</li><li>Prepare a mixture of potting soil and top soil that is enough for all flower pots.</li><li>Fill up all the pots with the soil mixture.</li><li>Place a bean seed in the center of each pot and push it down exactly one inch.</li><li>Add some water to all plants.</li><li>Make two clear plastic boxes using clear Plexiglas with estimated size of 10 x 15 x 10 inches. The main purpose of this plastic is to keep the cigarette smoke inside and avoid polluting the environment. Make sure that both containers are identical and both containers have an opening for outside air to enter.</li><li>Place 10 of the flower pots in first green house and label the green house with "CONTROL".</li><li>Place 10 of the flower pots in the second green house and label the green house with "SMOKE".</li><li>Place a smoker box in the "SMOKE" green house.</li><li>Water the plants every day.</li><li>Light up the smoker with 5 cigarette each day after watering.&nbsp;</li><li>Measure the height and count the number of leaves every day for approximately one month.</li><li>Record the observations.&nbsp;</li></ol>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 07:13:34 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274502367</guid>
      </item>
      <item>
         <title>1171103794 Tan Zi Yan</title>
         <author>1171103511</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274511435</link>
         <description><![CDATA[<div>Hypothesis : Salt will lower the melting point of the ice.<br><br>Procedure :<br>1. First, put the ice cube in the bowl of water.<br>2. Next, get the string.<br>3. Then moisten one end of the string a bit.<br>4. Afterwards, put the string on the ice.<br>5. Next, gently put in some salt to the ice. Make sure you do this slowly and gently because the ice cube easily tips over.<br>6. Wait a few seconds (or a minute if the string doesn’t seem to stick so well). <br>7. Pick the ice up using the string.<br>8. Observe the result.<br><br></div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/302277951/2d75fecde0e34a34836914dddaa94243/ice.jpg" />
         <pubDate>2018-08-22 08:32:57 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274511435</guid>
      </item>
      <item>
         <title>1181100904 Desmond Chan Jeat Xiang </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274514055</link>
         <description><![CDATA[<div>Hypothesis:<br> Sleep too much will affect our body <br>Procedure:<br> 1. First<br>participant need to sleep at least more than 10 hours and the second<br>participant carry on his normal sleeping hours.<br> 2. Let the two<br>participants carry out their task respectively for 30 days.<br> 3. After 30 days,<br>check and record their body condition.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 08:51:13 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274514055</guid>
      </item>
      <item>
         <title>1171102575 Teh Huei Yi</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274557541</link>
         <description><![CDATA[<div>Hypothesis : Drink coffee before go to bed, make us harder to fall asleep.&nbsp;<br>1. Select 6 p</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 13:27:04 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274557541</guid>
      </item>
      <item>
         <title>1181101477 Nicholas James</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274558849</link>
         <description><![CDATA[<div>Hypothesis: Exposure to high color temperature causes insomnia.<br><br>Procedure :&nbsp;<br>1.) 40 individuals are separated into two groups, namely Group A and Group B.<br>2.) The individuals in each different group will use computers with monitors varying in color temperatures, where group A has a high color temperature whereas group B has a low color temperature.<br>3.) The individuals will spend 2 hours browsing the internet on their computers with respective color temperature settings.<br>4.) The individuals are then told to sleep. The result is recorded based on how fast the individuals enter deep sleep.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 13:30:38 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274558849</guid>
      </item>
      <item>
         <title>1181100600 Chew Shu Qi</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274584314</link>
         <description><![CDATA[<div>Hypothesis :<br>Music can help human release stress.<br><br>Procedure :<br>1. Gather ten people who having stress on either study or work.<br>2. Separate them into 5 each group and place them into room A and room B.<br>3. In room A, there are playing some soft music.<br>4. In room B, there are silent, without any sound.<br>5. After 15 minutes, observe their action.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 14:34:50 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274584314</guid>
      </item>
      <item>
         <title>1181101399 Low Jia Wei</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274588575</link>
         <description><![CDATA[<div>Hypothesis: <br>The concentration of the solution which is isotonic to the cell sap of plant cells has no effect on the mass and size of plant cells.<br><br>Procedure:<br>1.7 petri dishes are prepared and labelled A,B,C,D,E,F and G.<br>2.Each beaker is filled respectively with the following substances:<br>A: Distilled water<br>B: 0.1M sucrose solution<br>C: 0.2M sucrose solution<br>D: 0.3M sucrose solution<br>E: 0.4M sucrose solution<br>F: 0.5M sucrose solution<br>G: 0.6M sucrose solution<br>3.A medium-sized cork borer is pushed through a large potato.<br>4.The potato tissue is removed drom the cork borer.<br>5. <br>It is cut into cylindrical strip 50mm long.<br>6.Steps 3 to 5 are repeated to prepare another 6 cylindrical strips of the same length.<br>7.Each strip is wiped dry with a piece of tissue paper.<br>8.The mass of each potato strip is weighted and recorded.<br>9.Each strip of potato is then placed in petri dish.<br>10.The strips of potato must be covered completely in the solution.<br>11.After soaking for an hour, each strip is removed from its respective petri dish and wiped dry.The mass of each strip is weighted again and recorded.<br>12.The results are recorded.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 14:46:31 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274588575</guid>
      </item>
      <item>
         <title>1181101031 Chu Lei Wern</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274590615</link>
         <description><![CDATA[<div>Hypothesis:<br>Cats have longer-term memory than dogs.<br><br>Procedure:<br>1.&nbsp; First get a cat.<br>2. Prepare 3 cups and 1 ball.<br>3. Show the cat the ball and hide it under the one of the cups.<br>4. Move the cups randomly.<br>5. Let the cat find out which was the ball.<br>6. Repeat it for 3 times.<br>7. Record down the results.<br>8. Repeat all of the steps above, but instead of cat, use a dog.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 14:50:56 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274590615</guid>
      </item>
      <item>
         <title>1171103796 Gabriel Chua Chin Seng </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274597300</link>
         <description><![CDATA[<div>Hypothesis :<br>The rate of cooling of water is affected by surface area <br><br>Procedure :<br>1.Pour 100ml of boiling water into a larger surface area of plate <br>2.Pour 100ml of boiling water into a smaller surface area of bowl . <br>3. Both of the initial temperature is recorded down by using a thermometer .<br>4. After 10 minute , measure the temperature of both of the water and observe the result </div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 15:07:14 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274597300</guid>
      </item>
      <item>
         <title></title>
         <author>loojun0207</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274645563</link>
         <description><![CDATA[1171103796 Gabriel Chua Chin Seng
1171103796 Gabriel Chua Chin Seng 
Hypothesis :
The rate of cooling of water is affected by surface area 

Procedure :
1.Pour 100ml of boiling water into a larger surface area of plate 
2.Pour 100ml of boiling water into a smaller surface area of bowl . 
3. Both of the initial temperature is recorded down by using a thermometer .
4. After 10 minute , measure the temperature of both of the water and observe the result 
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1181101031 Chu Lei Wern
1181101031 Chu Lei Wern
Hypothesis:
Cats have longer-term memory than dogs.

Procedure:
1.  First get a cat.
2. Prepare 3 cups and 1 ball.
3. Show the cat the ball and hide it under the one of the cups.
4. Move the cups randomly.
5. Let the cat find out which was the ball.
6. Repeat it for 3 times.
7. Record down the results.
8. Repeat all of the steps above, but instead of cat, use a dog.
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1181101399 Low Jia Wei
1181101399 Low Jia Wei
Hypothesis: 
The concentration of the solution which is isotonic to the cell sap of plant cells has no effect on the mass and size of plant cells.

Procedure:
1.7 petri dishes are prepared and labelled A,B,C,D,E,F and G.
2.Each beaker is filled respectively with the following substances:
A: Distilled water
B: 0.1M sucrose solution
C: 0.2M sucrose solution
D: 0.3M sucrose solution
E: 0.4M sucrose solution
F: 0.5M sucrose solution
G: 0.6M sucrose solution
3.A medium-sized cork borer is pushed through a large potato.
4.The potato tissue is removed drom the cork borer.
5. 
It is cut into cylindrical strip 50mm long.
6.Steps 3 to 5 are repeated to prepare another 6 cylindrical strips of the same length.
7.Each strip is wiped dry with a piece of tissue paper.
8.The mass of each potato strip is weighted and recorded.
9.Each strip of potato is then placed in petri dish.
10.The strips of potato must be covered completely in the solution.
11.After soaking for an hour, each strip is removed from its respective petri dish and wiped dry.The mass of each strip is weighted again and recorded.
12.The results are recorded.

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1181100600 Chew Shu Qi
1181100600 Chew Shu Qi
Hypothesis :
Music can help human release stress.

Procedure :
1. Gather ten people who having stress on either study or work.
2. Separate them into 5 each group and place them into room A and room B.
3. In room A, there are playing some soft music.
4. In room B, there are silent, without any sound.
5. After 15 minutes, observe their action.
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1171102575 Teh Huei Yi
1171102575 Teh Huei Yi
Hypothesis : Drink coffee before go to bed, make us harder to fall asleep. 
1. Select 6 p
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1181100904 Desmond Chan Jeat Xiang
1181100904 Desmond Chan Jeat Xiang 
Hypothesis:
 Sleep too much will affect our body 
Procedure:
 1. First
participant need to sleep at least more than 10 hours and the second
participant carry on his normal sleeping hours.
 2. Let the two
participants carry out their task respectively for 30 days.
 3. After 30 days,
check and record their body condition.
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1171103794 Tan Zi Yan
1171103794 Tan Zi Yan
Hypothesis : Salt will lower the melting point of the ice.

Procedure :
1. First, put the ice cube in the bowl of water.
2. Next, get the string.
3. Then moisten one end of the string a bit.
4. Afterwards, put the string on the ice.
5. Next, gently put in some salt to the ice. Make sure you do this slowly and gently because the ice cube easily tips over.
6. Wait a few seconds (or a minute if the string doesn’t seem to stick so well). 
7. Pick the ice up using the string.
8. Observe the result.

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1181100592 Lee Ming Ern
1181100592 Lee Ming Ern
Hypothesis: Cigarette smoke has no negative effect on plant growth.

Procedure:

Get twenty small ceramic flower pots. 
Prepare a mixture of potting soil and top soil that is enough for all flower pots.
Fill up all the pots with the soil mixture.
Place a bean seed in the center of each pot and push it down exactly one inch.
Add some water to all plants.
Make two clear plastic boxes using clear Plexiglas with estimated size of 10 x 15 x 10 inches. The main purpose of this plastic is to keep the cigarette smoke inside and avoid polluting the environment. Make sure that both containers are identical and both containers have an opening for outside air to enter.
Place 10 of the flower pots in first green house and label the green house with "CONTROL".
Place 10 of the flower pots in the second green house and label the green house with "SMOKE".
Place a smoker box in the "SMOKE" green house.
Water the plants every day.
Light up the smoker with 5 cigarette each day after watering. 
Measure the height and count the number of leaves every day for approximately one month.
Record the observations. 
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1171103511 Ong Kai Jaz
1171103511 Ong Kai Jaz
Hypothesis:  Computer game affects the human mental condition. 

Procedure:
1. Prepare a computer game, Dota 2 for the first participant and the second participant carries on his life as usual.
2. Set up a camera to observe the first participant and another camera for the second participant.
3. Let the two participants carry out their task respectively for two days.
4. The first participant will play the computer game for two days and the second participant will carry on his life as usual.
5. After two days, check and record their mental condition.

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1171103872 Lim Xin Roy
1171103872 Lim Xin Roy 
Hypothesis :  Dogs are able to see at least some shades of color. 

Procedure : 
 (This experiment will be conducted in 3 phases )
1. Set up two different colors of cloths, which is light blue and green . 
2.  The dog will be trained to put it's paw on one of the cloth  from the differently colors of cloths . In the first phase ,light blue is choose for the test. Reward the dog with a treat when it chooses the light blue cloth. 
3. Train the dog until it keep choosing the light blue cloth.
4. Switch position of cloths once in the second phase.  Reward the dog with a treat when it chooses the light blue cloth. 
5. Keep switching the position of the cloths in the third phase. Reward the dog with treat when it chooses light blue cloth.  
6. Record the observations.


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1181101729 Felix Kwong Kay Cheong
1181101729 Felix Kwong Kay Cheong
Hypothesis: Money affects the honesty value in most people.

Procedure: 
1. Prepare a money note such as Rm 10 and mark a dot to make sure that the note can be proven its ours.
2. Set up a camera from an angle that cannot be seen and wait for people to pass by that area.
3. Approach a random person from behind can pretend to pick up the money note which is already in your palm.
4. Tap the shoulder of the random person and ask him or her whether that money note belongs to them.
5. See their respond whether that they say that the money note belongs to them or not.
6. If their respond is yes, then it proves that they are not honest as it practically is not their money because that money note has a dot mark proving its ours.
7. If their respond is no, then it proves that they are being honest as they no its not their money and they will not take something that does not belong to them.
8. Therefore, there will definitely be people who will take the money although it does not belong to them as they are greedy and hungry for money, making their honest value be affected.
9. This proves that money can affect someone's honesty value. 

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1181101477 Nicholas James
1181101477 Nicholas James
Hypothesis: Exposure to high color temperature causes insomnia.

Procedure : 
1.) 40 individuals are separated into two groups, namely Group A and Group B.
2.) The individuals in each different group will use computers with monitors varying in color temperatures, where group A has a high color temperature whereas group B has a low color temperature.
3.) The individuals will spend 2 hours browsing the internet on their computers with respective color temperature settings.
4.) The individuals are then told to sleep. The result is recorded based on how fast the individuals enter deep sleep.
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1171103353 LOH MIN YI
1171103353 LOH MIN YI
Hypothesis：Bad word and good word will effect a person.

Procedure：
Place 1 cup of Cooked Rice into two separate containers. Place a lid on each.
Mark one container with a positive phrase （E. g Thank you, I love you) 
Mark the other container with a negative phrase. (e. g Stupid, ugly rice) 
Place them in your kitchen at least 12 inches apart.
Once or more every day say aloud to the rice container the phrase written on it. For example, every time I went into my kitchen I would say “Thank You Rice” and “Stupid Rice” Try to say it from a place of gratitude (thank you) and a place of anger and frustration (stupid). 
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1181100430 Tan Siao Wah
1181100430 Tan Siao Wah
Hypothesis: MMU student who doing revision more than MMU student who playing game in library.

Procedure:
1.Randomly observe 25 students from different table in the library.
2.Observe the student is doing revision or playing game.
3.Record the observation.
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Lee Wei Yang 1181100308
Lee Wei Yang 1181100308
Hypothesis: Make your own rock candy

Procedure:

Clip the wooden skewer into the clothespin so that it hangs down inside the glass and is about 1 inch (2.5 cm) from the bottom of the glass. (as shown)
Remove the skewer and clothespin and put them aside for now.
Get a helpful adult!
Pour the water into a pan and bring it to boil.
Pour about 1/4 cup of sugar into the boiling water, stirring until it dissolves.
Keep adding more and more sugar, each time stirring it until it dissolves, until no more will dissolve. This will take time and patience and it will take longer for the sugar to dissolve each time. Be sure you don’t give up too soon. Once no more sugar will dissolve, remove it from heat and allow it to cool for at least 20 minutes.
Have your friendly ADULT carefully pour the sugar solution into the jar almost to the top. Then submerge the skewer back into the glass making sure that it is hanging straight down the middle without touching the sides.
Allow the jar to fully cool and put it someplace where it will not be disturbed.
Now just wait. The sugar crystals will grow over the next 3-7 days.

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1171103380 (Dhiviyah Ramesh)
1171103380 (Dhiviyah Ramesh)
Hypothesis : The higher the temperature of the water, the greater the mass of sugar that dissolves in it.

Procedure :
1. 100 cm of water is measured using a measuring cylinder and is poured into 250 cm beaker.
2. The temperature of water is recorded using a thermometer.
3. A 100 cm beaker is filled with sugar. The beaker and its contents are then weighed and recorded as a gram.
4. The sugar is added a little at a time to the water in the beaker using a spatula. The mixture is then stirred using a glass rod.
5. The process is continued until no sugar can further dissolve in the water.
6. The beaker and its contents (sugar) are weighed again and recorded as b gram.
7. The amount of sugar that dissolved in the water at room temperature is ( a - b) gram.
8. The experiment is repeated by heating the water to temperature of 40,50,60 and 70 degree celcius respectively.

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1181101641 (Go Yong Chang T3A)
1181101641 (Go Yong Chang T3A)
Hypothesis : Larger animals of the same species expand more energy than smaller animals of the same type.

Procedure :
1. Leave a 70-pound dog and a 30-pound dog in a room.
2. Provides both of them with a lot of bones.
3. Let them eat as many bones as they want.
4.  Observe and record how much food that each of them have ate.
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1171103233 Chan Kar Lit
1171103233 Chan Kar Lit
Hypothesis : The total momentum before collision is equal to the total  momentum after collision, provided there are no external forces acting on the system.

Procedure:
1. Give two trolleys A and B that same mass are placed in contact with each other on a smooth surface.Two wooden blocks are placed on the same row at the end of each trolley.
2. The vertical trigger on trolley B is given a light tap to release the spring-loaded piston which then pushes the trolleys apart. The trolleys collide with the wooden blocks.
3. The position of the wooden blocks are adjusted so that the trolleys collide with them at the same time.
4. The distances of both trolleys to the wooden blocks are measured and recorded.
5. The experiment is repeated with different masses of trolleys. 
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1171103489 Lee Derk Xin
 1171103489 Lee Derk Xin
1171103489 Lee Derk Xin
Hypothesis : The angle of reflection is equal to the angle of incidence

Procedure : 
1. A ripple tank is set up
2. A plane reflector is placed in the middle of the tank so that it is parallel with the incident wavefronts. The reflected waves are observed through a stoboscope.
3. The reflector is then adjusted so that the incident waves approach the reflector at incident angles of 20, 40, 60 and 80 degree. For each situation, the reflected angle is observed.
4. The wavelength of the incident and reflected waves are observed and compared.
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1171103341 （LM01 Ivy See）
1171103341 （LM01 Ivy See）
Hypothesis: The vegetable oil will react with the alkali to form soap during saponification process. 

Procedure:
 1.  The animation below shows the arrangement of the apparatus and the observation of the experiment.
2. 5cm3 of palm oil are measured by measuring cylinder and poured into a beaker.
3. 30cm3 of sodium hydroxide are measured and added into the beaker.
4. The mixture is stirred constantly and heated until boiling for about 10 minutes.
5. 50cm3 of water and one spatula of sodium chloride are added into the beaker.
6. The mixture is boiled for another 5 minutes and then cool down to room temperature.
7.  Product formed are filtered and dried with pieces of filter paper.
8. The residue is then touched using fingers.
9. The residue is then mixed and stirred together with water.
10. The experiment is repeated with different vegetable oil.

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LM01 1171103672(Gan Li Hui)
LM01 1171103672(Gan Li Hui) 
Hypothesis： Greater light intensity gives a greater rate of photosynthesis.
Procedures
Leave for five minutes for the pondweed to acclimatise to the new light intensity.
Count the number of bubbles given off in one minute.
Move the light 10 cm further back.
Leave for five minutes for the pondweed to acclimatise again.
Repeat by moving the lamp away by 10 cm intervals until 50 cm is reached.

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1171103368 (Angelin Tan Li Xin ,LM 01)
1171103368 (Angelin Tan Li Xin ,LM 01)
Hypothesis : The bouncy ball can be bounced over a foot high and the ball has quite a unique to feel it.

Procedure:
Label one cup ‘Borax Solution’ and the other cup ‘Ball Mixture’.
Pour 4 ounces (120ml) of warm water into the cup labeled ‘Borax Solution’ and 1 teaspoon of the borax powder into the cup. Stir the mixture to dissolve the borax.
Pour 1 tablespoon of glue into the cup labeled ‘Ball Mixture’. Add 3-4 drops of food coloring, if desired.
Add 1/2 teaspoon of the borax solution you just made and 1 tablespoon of cornstarch to the glue. Do not stir.
Allow the ingredients to interact on their own for 10-15 seconds and then stir them together to fully mix.
Once the mixture becomes impossible to stir, take it out of the cup and start molding the ball with your hands. The ball will start out sticky and messy, but will solidify as you knead it. Once the ball is less sticky, continue rolling between your hands until it is smooth and round!
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1181101030 ( Eugene Tan Kok Yew )
1181101030 ( Eugene Tan Kok Yew )
Hypothesis: 
People in a rush would be much less likely to show helping behavior. 

Procedures:
1. Participants were told to travel from one building to the next. 
2. Participants were given instruction to some being told not to rush and others being informed that speed was of the essence. 
3.  Between the two buildings was a man lying injured and appearing to be in dire need of assistance. 
4. Observe the number of participants who helped the man and who don't.

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LM01 NG JIA HUI (1171103571）
LM01 NG JIA HUI (1171103571）
Hypothesis: Bacteria grow well in the dark than in the light.

Procedures:
1. Put nutrient agar and 1cm³ of bacterial culture into two petri dishes and label A and B.
2. Close the petri dishes and seal with cellophane tape.
3. Store petri dish A in a dark cupboard and petri dish B under a lighted lamp.
4. Left the both petri dishes for two days.
5. Record the number of bacterial colonies in each petri dish at the end of the experiment. 
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1171103510 ( Pok Xiao Lin LM01)
1171103510 ( Pok Xiao Lin LM01)
Hypothesis: A bone can be bended by using vinegar.

Procedure:
1. Have a nice chicken dinner and save a bone. Leg bones work best.
2. Rinse off the bone in running water to remove any meat from the bone.
3. Notice how hard the bone is – gently try bending it. Like our bones, chicken bones have a mineral called calcium in them to make them hard.
4.Put the bone into the jar and cover the bone with vinegar. It might be a good idea to put the lid on the jar or cover it – let it sit for 3 days
5. After 3 days remove the bone. It should feel different. Now can rinse it off and try bending it again. 
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1171103867 ( Tey Wan Teng)
1171103867 ( Tey Wan Teng)
Hypothesis: People weight more in the afternoon compared to the morning.

Procedure:
1. Choose 30 - 40 people of all ages randomly.
2. Weight all of them in the morning around 8am to 10am.
3. Observe and record the results.
4. Then, weight all of them in the afternoon around 1pm to 3pm.
5. Observe and record the results again.
6. Analyse and compare the results.
7. Carry out this experiment for three consecutive days for a more accurate result.
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1171103831 (Verona Tan Xiang Ni LM01)
1171103831 (Verona Tan Xiang Ni  LM01)
Hypothesis: Does the surface tension makes the paper clip float on water?
Procedure:
1) Fill the bowl with water
2) Tear a piece of tissue paper about half the size of a dollar bill
3) Gently drop the tissue flat onto the surface of the water
4) Gently place a dry paper clip flat onto the tissue (try not to touch the water or the tissue)
5) Use the eraser end of the pencil to carefully poke the tissue (not the paper clip) until the tissue sinks. 
6) The tissue will sink and leave the paper clip floating
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Lee Chia Hao(1181100681-T1A
Lee Chia Hao(1181100681-T1A
Hypothesis: Learning point is a better place for study compare with library

Procedures :
1.Ramdomly pick 30 students from MMU.
2. Give order to half of them go to learning point study Critical Thinking Topic 1-4. And others go to library study the same topic.
3.Give them 1 hour to study.
4.After that ,give them the same test.
5.Observe,record and find the average mark for learning point and library.
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1181101482 ( SHAKTI RUBINEE)
1181101482 ( SHAKTI RUBINEE)
Hypothesis : Light is essential for photosynthesis.

Procedure :
1.Take the potted plant and keep it in a dark place for 2-3 days so that the leaves  gets destarched.
2.Cover a part of one of its leaves with the strip of black paper.Make sure that you cover both the sides of the leaf.
3.Now place this plant in sunlight for 3-4 hours.
4.Pluck the selected covered leaf and remove the black paper covering it.
5.Place this leaf in the beaker containing water and boil it for about 10 minutes.
6.Take out the leaf and now boil it in alcohol,using the water bath,for 10 minutes. This removes the chlorophyll.
7.Take out the leaf and wash it under running water.
8.Place this leaf in the Petri dish and put few drops of iodine solution on it. Now observes the change in colour.  
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1181100863 (Tan Kah Wai)
1181100863 (Tan Kah Wai)
Hypothesis: The higher the temperature,the shorter the time taken the water to completely evaporate.

Step 1 : Prepare two beakers and a timer.
Step 2 : Fill up the beakers with 500ml water.
Step 3 : Put each of the beakers outside in different time zone,one in afternoon,one at night.
Step 4 : Observe and record the time taken for the water to completely evaporate.

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1181100991 [ Tee Zi Jun ]
1181100991 [ Tee Zi Jun ]
Hypothesis : The increases the volume of water , the increases the time taken for reaching the boiling point.

Step 1 : Prepare the material such as beaker , bunsen burner , tripod stand , water and others.
Step 2 : Fill 500ml water into the beaker A and fill 1000ml water into the beaker B.
Step 3 : Put beaker A and B on the tripod stand and start boil the water by using bunsem burner.
Step 4 : Observe and record data of the time taken for which beaker reaching the boiling point.
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1181101663(Pravin A/L Morgan)
1181101663(Pravin A/L Morgan)
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1181101545(Muhammad Amir Aliff
1181101545(Muhammad Amir Aliff
Movement of substances across a semi-permeable permeable membrane

Procedure
 

1.Wet one Visking tubing. Tie a knot firmly at one end.

2.Pour 10ml of glucose solution and 10ml of starch suspension into the Visking tube. Tie a
knot at the top of the tubing. Record the colour of the mixture.

3.Rinse the outside of the Visking tubing using distilled water.

4.Pour 300ml of distilled water into a beaker. Add in 10ml of iodine solution. Record the
colour of its solution.

5.Imerse the Visking tubing in the beaker of solution for 3o minutes as shown in the
diagram.

6.After 30 minutes, remove the Visking tubing and transfer it into a dry beaker.

7.Record the colours of the contents in the Visking tubing and the solution in the beaker.

8.Test for the presence of glucose in the content of the Visking tubing and the solution in the
beaker using the following steps:
a.Pour 2ml of the solution into a test tube and add in 1ml of Benedicts solution.
b.Heat the mixture in a beaker of water bath. Record the change in colour


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1181101188 ( Muhammad Hakimi bin Hamidzul )
1181101188 ( Muhammad Hakimi bin Hamidzul )
Hypothesis: Blue ink is better for memorization compare to black ink
1. Choose two student randomly in the same class
2. Give them different pen, one with blue ink and another one with black ink
3. Ask them to rewrite a text that had been given
4. Ask them several questions after they had finish writing 
5. Record the results of the correct answer by both student
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Anonymous 8h
amazing work miki!
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1181101618 (Premshanthiyaa A/P Sagardevan)
1181101618 (Premshanthiyaa A/P Sagardevan)

Hypothesis: Egg can float on the high concentrate of salt water.

Procedure: 
 
Carefully place the egg into the glass of water.

Initially the egg will sink to the bottom.

Pour in two teaspoons of salt and stir carefully around the egg.

Continue to add the salt and stir until the egg rises.

Eventually the egg will float as salt water is denser than fresh water and the egg will weigh less than the water. 



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1181100520 (Siah Weelie)
1181100520 (Siah Weelie)
Hypothesis: the longer the playing online game, the lower the result of exam.
Steps:
1. Random choose 10 student from classroom.
2. Random choose five out of ten and let they choose same online game.
3. setting a minimum limit time (3 hour or more) for playing same online game
4.give they a test after 1 month
5.record and compare their result 
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1181100599( Lee Sye Ling) T1A
1181100599( Lee Sye Ling) T1A
Hypothesis:The reactivity  of a radioactive sample decreases exponentially with time.

Procedure:

1)Place 400 coins which are painted black on one face into a box.

2)Shake the box well .Then toss the all the coins out of the box onto a table.

3)Remove the coins with the face painted black facing upwards.

4)Record the number of coins removed.Then count and record all coins which are not removed as N and place them back into a box.

5)Can repeat a few times to get the different results.
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1181100671(Tey Yee Yang Brandon
1181100671(Tey Yee Yang Brandon
Hypothesis:
Increase in temperature will increase the rate of reaction.

Procedure
1) 50 cm^3  of 0.2 mol dm^-3 sodium thiosulphate solution is measured using a measuring cylinder and poured into a conical flask.
2) The temperature of this solution is measured using a thermometer.
3) The conical flask is placed on a white paper marked with an "X" at the centre.
4) 5 cm^3 of 1 mol dm^-3 sulphuric acid is measured using a measuring cylinder.
5) The sulphuric acid is added quickly and the stopwatch is started immediately
6) The mixture is swirled a few times and placed back on the white paper.
7) The stopwatch is stopped when the "X' is no longer visible. 
8) Record the time taken
9) Repeat the experiment by using different temperature of sodium thiosulphate solution.
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1181102022 (VINOD A/L RAGHU
1181102022 (VINOD A/L RAGHU
Hypothesis: The higher the current flowing throught the solenoid, the stronger the electromagnet.

Procedure:
1)The metal rod is wrapped with 10 turns of the insulated copper wire and both ends are connected to a circuit as shown in diagram
2)The circuit is started and the rheostat is adjusted to get 1.0 A current.
3) One end of the elctromagnet is inserted into the dish of pins, and then removed. The current is switched off. The number of pins that were stuck to the electromagnet is counted.
4) The experiment is repeated  with current value of 2.O A. 3.0 A.4.0 A and 5.0 A.
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1181100453 (HAIQAL BAHRUDIN)
1181100453 (HAIQAL BAHRUDIN) 
HYPOTHESIS :
Human who can read normally still can read jumbled words

STEPS :
1. Choose three normal people who can read
2. Give three of them a letter with jumbled words
3. After all of them had read the letter, give them some questions based on the letter.
4. Observe and record their answer
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4 comments

Anonymous 8h
hensem ahh org besar yg disave gmbr ig

Anonymous 8h
orang dia besar,adik dia besar tak?

Anonymous 8h
emmmm xtau ahh,, nnti kita check.. guna critical thinking

Anonymous 8h
kena guna inductive argument ni...
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1181101067 (Iman Zarif bin Norfazli)
1181101067 (Iman Zarif bin Norfazli)
Hypothesis:
The more sleep a person gets,the more energy that person has for the next day

Steps:
1.Gather 20 people of the same age and divide the people into 2 groups of 10 person each
2.One group will get 8 hours of sleep while the other group will only get 4 hours of sleep
3.After the groups have woken up,all of them will be given a physical test and will be timed
4.Record the time taken for both groups to finish the physical tests
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Anonymous 8h
bats.. terbang !!
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1181100993 （ONG YUAN QIN）
1181100993 （ONG YUAN QIN）
Hypothesis: The total momentum before collision is equal to the total momentum after collision, provided there are no external forces acting on the system.

  Steps
1) The apparatus is set up shown in the diagram 
2) Two trolleys A and B of equal mass are placed in contact with each other on an even and smooth surface. Two wooden blocks are placed one the same row at the end of each trolley respectively.
3) The vertical trigger on trolley B is given a light tap to release the spring-loaded piston which then pushes the trolleys apart. The trolleys collide with the wooden blocks.
4) The positions of the wooden blocks are adjusted so that both the trolleys collide with them at the same time.
5) The distance,distance of A and distance of B measured and recorded.
6)The experiment is repeated with different masses of trolleys.
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(1181100675)(Lim kah chuan)
(1181100675)(Lim kah chuan)

Hypothesis:Bacteria thrive in neutral conditions but not in conditions that are very acidic and alkaline.

Procedure: 1) 5cm cube of hot nutrients agar into MC Cockey       
bottle A,B and C.
2). Let the agar solidify before adding 1 cm³ of bacteria culture solution on the surface of the 
solidified agar. 
3. Add 1 cm³ of hydrochloric acid into one Mc Conkey bottle , 1 cm³ of sodium hydroxide 
solution into the second Mc Conkey bottle, and 1 cm³ of distilled water into the third Mc 
Conkey bottle using syringes. 
4. Place the three Mc Conkey A,B and C inverted in a dark cupboard for two to three days. 
5. Record your observation on the growth of bacteria at the end of the experiment
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1181100935 (How Jun Jie)
1181100935 (How Jun Jie)
Hypothesis :
The longer the length of a simple pendulum, the longer the period of oscillation. 
Step:
1.The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum is measured to 80cm.
2.With the thread taut and the bob at rest, the bob is lifted at a small amplitude. 
3.The time for ten complete oscillations of the pendulum is measured using the stopwatch. 
4.Step 3 is repeated, and the average of both readings are calculated. 
5.The period of oscillation is calculated using the average reading divided by the number of oscillations. 
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1181101060 CHONG YOU LI (T2)
1181101060 CHONG YOU LI (T2)
Hypothesis : 
The longer time taken for the methylene blue solution to decolourize, the less polluted the water source is. 

Steps : 
Water samples are collected from four different sources
 (tap water, river water, pond water and drain water) and distilled water is used as a control.
Five reagent bottles are labelled as A, B, C, D and E respectively.
Each reagent bottle is filled with the following water sample. 
1ml of methylene blue solution is added by using a syringe to the base of each water sample  in each reagent bottle. 
Each reagent bottle is then closed quickly with a stopper.
The reagent bottle cannot be shaken.
Each reagent bottle is kept in a dark place (cupboard) and then the stopwatch is started.
The bottles are examined from time to time.
The time taken for methylene blue to decolorize is recorded.

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1181101337 (Tan Li Chong )
1181101337 (Tan Li Chong )
Hypothesis: The more book you read , the more question you can answer.

Steps
1.Collect 50 people to do this experiment.
2.Divide 50 people into 5 group.
3.The group name with group A,B,C,D,and E
4.Prepare 10 book about critical thinking , 10 book about computer application , 10 book about physic , 10 book about biology and 10 book about chemistry.
5.Give group A the book about computer application and critical thinking.
6.Give group B the book about physic
7.Give group C the book about biology
8.Give group D the book about chemistry
9.group E does not receive any book.
10.After 1 week, all the group A participant stay at exam hall and give the a test about critical thinking , computer application , physic , biology and chemistry.
11. After the test ,collect the marks about the participant.
12 .Repeat the experiment by Group B,C,D and E 

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1181100678(NG WEN DONG)
1181100678(NG WEN DONG)
Hypothesis: The larger the volume of water consumed, the larger the volume of urine excreted.
Procedures:
1. The night before the experiment, the participating students are not to consume any food or drinks after 10.00p.m.
2. Students are divided into four groups according to their average weight.
3. On the day of the experiment, each student drinks 500ml of distilled water in the morning one hour before the experiment.
4. Each student empties his or her urinary bladder and collects the urine sample at the beginning of the laboratory period.
5. Measuring cylinders are used to measure the volumes of these samples. These volumes are taken as the volume of urine excreted at the beginning of the experiment.
6. Immediately after that, each group is assigned to drink various amounts of distilled water.
Group 1 : 250ml of distilled water
Group 2 : 500ml of distilled water
Group 3 : 750ml of distilled water
Group 4 : 1000ml of distilled water
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1181101586 (ARRVEEN KUMAR A/L SURESH KUMAR)
1181101586 (ARRVEEN KUMAR A/L SURESH KUMAR)
 
Hypothesis: A person's weight is a continuous variation.
Steps
1) 10 student is randomly selected in the class.
2) The weight of each student in the class is measured and recorded.
3)The result is then grouped into different ranges.
4)A histogram for the number of students against weight is drawn.
5)A curve is drawn joining the midpoint of the top of each box to form a normal curve . 
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1181100738( LIEW YEE SEN, T1A )
1181100738( LIEW YEE SEN, T1A )
Hypothesis: The larger the weight, the deeper the depth.

Steps: 
1. Prepare two iron ball it's 1kg and 3kg, ring stand, rope, scissor, ruler and sticky block.
 
2. Use ring stand and rope binding 1kg iron ball and put the sticky block under the iron ball. 

3. Using scissor cut the rope and let the iron ball fell on the sticky block. 

4. Measure and record the depth that the iron ball fell on the sticky ball. 

5. Repeat the step 2-4 and using 3kg iron ball. 

6. Conclude it the deeper the depth with which weight of iron ball.


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1171102640(Hood)
1171102640(Hood)
 Hypothesis: increasing the temperature increases the rate of evaporation of water
steps:
1)the temperature increases which causes the molecules to move faster and more vigorously and increases the kinetic energy of the molecules .
2)the molecules with the higher temperature will escape to the surface and then evaporates.
3) if the water is in room temperature the molecules will stay stable 
4)so the molecules will not escape to the surface because it wont have kinetic energy and its not going to evaporate
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1171103841(Toh Tao Jie
1171103841(Toh Tao Jie
Hypothesis : The presence of yeast will affect the expansion of balloon.

Steps:
1. Fill the bottle up with about one inch of warm water.
( When yeast is cold or dry the micro organisms are resting.)
2. Add all of the yeast packet and gently swirl the bottle a few seconds.
(As the yeast dissolves, it becomes active – it comes to life! Don’t bother looking for movement, yeast is a microscopic fungus organism.)
3. Add the sugar and swirl it around some more.
Like people, yeast needs energy (food) to be active, so we will give it sugar. Now the yeast is “eating!”

4. Blow up the balloon a few times to stretch it out then place the neck of the balloon over the neck of the bottle.
5. Let the bottle sit in a warm place for about 20 minutes
If all goes well the balloon will begin to inflate!



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1181100425 (Lee Woei Jye, T1A)
1181100425 (Lee Woei Jye, T1A)
Hypothesis:the longer the length of simple pendulum,the longer the oscillation.
Procedure
1)The thread is tied to the pendulum bob.The other end of the thread is tied around the arm of the retort stand so that it can swing freely.The length of the pendulum,l is measured to 80cm as per the diagram.
2)With the thread taut and the bob at rest,the bob is lifted at a small amplitude (of not more than 10°).Ensure that the pendulum swings in a single plane.
3)The time for ten oscillations of the pendulum is measured using the stopwatch.
4) Step 3 is repeated , and the average of both readings are calculated.
5)The period of oscillation,T is calculated using the average reading divided by the number of oscillations i.e. 10.
6)T² is calculated by squaring the value of T.
7)Steps 1 to 6 are repeated using l=70cm,60cm,50cm,and 40cm.
8)A graph T² versus l is plotted
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1181100967 ( Lee Zhi Yang, T2A)
1181100967 ( Lee Zhi Yang, T2A)
Hypothesis: If more water is taken, more urine will be relaesed.
Procedures:
1) Two students are chosen at random and instructed to empty their bladders before the start of the experiment.
2) 200ml of water is measured and put  into the mug.
3) Student A and B are given 200ml of mineral drinking water to drink.
4) A stopwatch is started immediately after consuming the water.
5) During the experiment, they are kept within 2 hours.
6) They are instructed not to eat and perform any vigorous physical activities.
7) After half and hour, they are asked to empty their bladders.
8) The collected urine is kept in a large beaker.
9) At the interval of half and hour, until two hours, students empty their bladders.
10) After two hours, the total collected urine is measured using measuring cylinder.
11) Repeat steps 2-10 for different amount of drinking water ( 400ml, 600ml, 800ml, 1000ml ) for student A while the same amount of drinking water ( 200ml, 200ml, 200ml, 200ml ) for student B.
12) Step 11 is conducted for four consecutive days in a fixed time and place.
13) Measure and record the collected data into a table. 
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1181100850 (Wong Cong Zhi , T1)
1181100850 (Wong Cong Zhi , T1)
Hypothesis:  The deeper the actual depth, the deeper the apparent depth.
Steps:
1. A pin is mounted in a movable clamp on a retort stand.
2. Another pin is placed at the base  of the tall beaker. Water is filled as the actual depth to D= 7.0cm
3. The object pin O is observed form the top, and pun I is adjusted vertically until it appears to meet pin O. At this point, the position of pin I matches the apparent depth, d of pin ). The apparent depth is measured fro, the top of the water level to the position if pin I.
4.Step 4 is repeated by changing the actual depth to 9.0cm , 11.0cm , 13.0cm and  15.0cm.
5.The result are tabulated and a graph of D against d is plotted.

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1181100235(LOW QZHI YEE,T1A)
1181100235(LOW QZHI YEE,T1A)
Hypothesis:The presence of manganese(IV) oxide catalyst increase the rate of decomposition of hydrogen peroxide
Steps:
1)Fill water in the burette until it s full
2)Invert the burette in a basin of water and clamp the burette vertically
3)Adjust the water level in te burette and record the initial burette reading.
4)Measure and pour 50cm^3 of 0.5moldm^-3 of hydrogen peroxide into a conical flask.
5)Add a pinch of manganese(IV) oxide into the conical flask 
6)Close the conical flask immediately with stopper fitted with delivery tube.Start thestopwatch.
7)Collect 25cm^3 of oxygen gas released by downward displacement of water.
8)Swirl the conical flask throughout the experiment
9)Record the time taken to collect 25cm^3 of oxygen gas.
10)Repeat steps 1 to 9 with 50cm^3 of 0.5 moldm^-3 of hydrogen peroxide without the addition manganese (IV) oxide.
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1181100488 (Kuan Yong Qing, T1)
1181100488 (Kuan Yong Qing, T1)
Hypothesis:  
When the length, L, of a wire increases, its resistance, R, increases.
Steps: 
1. A 20.0 cm long eureka wire is connected between terminals X and Y.
2. Circuit is switched on and the rheostat is adjusted until the ammeter reading, is 0.5 A.
3. The reading, V, shown on the voltmeter is recorded.
4. The experiment is repeated using different lengths of eureka wire, L = 40.0 cm, 60.0 cm, 80.0 cm, and 100.0 cm.
5. Resistance, R, of the wire is calculated.
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1181100721(Ong Han Bin,T1A)
1181100721(Ong Han Bin,T1A)
Hypothesis: The air from different environments does not contain the same amount of solid pollutants.

Steps:
1.Five slides are prepared and labelled A,B,C,D and E.
2.A piece of cellophane tape with the adhesive surface facing upwards is stuck on each slide. 
3.The slides are  placed at five spots in five different types of environments.
 a)Slide A is placed in a closed Petri dish
b)Slide B is attached to a lamp post in a car park.
c)Slide C is placed in an open field.
d)Slide D is placed in a classroom.
e)Slide E is placed in an air-conditioned room.
4.All slides are left aside for a week.
5.All slides are collected after one week and each is viewed under a microscope using a low power.
6.The results is then be recorded.
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1181101099 (Tan Chun Keat , T2A)
1181101099 (Tan Chun Keat , T2A)
Hypothesis : The longer the wire , the higher the resistance.

Steps : 
1. A eureka wire is connected in the circuit together with the ammeter , voltmeter , battery , switch and rheostat using a connecting wire.
2. The length of eureka wire between two connecting points is adjusted to 20cm.
3. The switch is closed and the rheostat is adjusted until the ammeter reading , I is 0.5A. 
4. Step 3 is repeated for wire lengths 40cm , 60cm , 80cm and 100cm.
5. The resistance , R = V/I is calculated for each length.
6. A graph of R against I is plotted.

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1181100805 (Tan Zhan Jun
1181100805 (Tan Zhan Jun
Hypothesis: The diffusion of molecules through a semi-permeable membrane is based on the size of the molecules.

Steps:
1. A Visking tubing is soaked in water for a minute to soften it. 
2. One end of the Visking tubing is tied firmly with a piece of cotton thread of prevent leakage.
3. The Visking tubing is filled with 5 ml of glucose solution and 5 ml of starch suspension.
4. The other end of the Visking tubing is tied with another piece of thread. The colour of the solution is recorded.
5. The outer surface of the Visking tubing is rinsed with distilled water.
6. 400 ml of distilled water and 15 ml of iodine solution are mixed in a beaker. The colour of solution is recorded.
7. The Visking tubing is immersed in the beaker of solution and left to stand for 40 minutes.
8. After 40 minutes, the Visking tubing is transferred to a dry beaker.
9. The colour of the solutions in the Visking tubing and the beaker is observed and recorded.
10. Both solutions are tested for the presence of glucose using Benedict's solution.
11. 2 ml of each solution are poured into separate test tubes and 1 ml of Benedict's solution is then added to each test tubes.
12. The solution is heated in a boiling bath for about 5 minutes and the change in colour is then recorded.
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1181101874 (Erica, T3A)
1181101874 (Erica, T3A)
Hypothesis: The larger the weight, the longer the spring extension.
 
Steps:
1. The apparatus is setup as shown in the diagram.
2. The length of the spring without any weights, l0 is measured using the metre rule with the pin as reference. 
3. A 50 g weight is hung from the bottom of the spring. The new length of the spring, l is measured. The spring extension is l – l0.
4. Step 4 is repeated with weights 100 g, 150 g, 200 g, and 250 g.
5. A graph of spring extension, x against weight, F is plotted.
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1171103805 Tan Pei Kuan
1171103805 Tan Pei Kuan 
Hypothesis: Guava juice contains a higher concentration of vitamin C compared to orange juice and pineapple juice.

Steps:
1. Label four boiling tube as A, B, C and D.
2. Place 1ml of DCPIP solution in each boiling tube. 
3. Fill a syringe with 5ml of ascorbic acid solution.
4. Immerse the needle of the syringe in the DCPIP solution drop-by-drop.
5. Do not shake the tube vigorously.
6. Record the volume of ascorbic acid solution used to turn the DCPIP solution colourless using a syringe.
7. Repeat steps 2 to 7 using guava juice, pineapple juice and orange juice.
8. Calculate the percentage and concentration of vitamin C in these three types of fruit juice.

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1181101480 Luwe Yee Jia
1181101480 Luwe Yee Jia
Hypothesis: Does music have an affect on plant growth?

Steps:
1. Prepare two identical plants. 
2. Separate the position of two plants.
3. Grow a plant with music playing every day, and another one without music playing.
4. Two weeks later, record the length and width of stem and the number of leaves of both plants. 
5. If the plant with the music playing grew stronger and bigger, the hypothesis is accepted. 

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c
 c
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e potential difference ac
 e potential difference across the terminals of dry cells decrease w
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with stain.
 2. Fill 2 b
  with stain.
2. Fill 2 basin with 1000ml of hard water and 1000 ml of so
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HEW ZHONG KEN (1181101119)
HEW ZHONG KEN (1181101119)
hypothesis : As the sucrose solution reach certain concentration (isotonic to the cell sap).there is no changes in the length of potato strip

steps:
1.six test tube are labelled P Q R.S,T and U.
 2.Test tube P is filled with 10ml distilled water, test tube Q is filed with 10ml sucrose solution O 1M test tube R is filled with 10ml sucrose solution 0.2M test tube S is filled with 10ml sucrose solution 0,3MThs tube is filled with 10ml sucrose solution 0.4M and test tubes U is filled with 10ml sucrose solution 0.5M 
3.The cork borer is pushed into the potato and the potato strip is obtained by pushing it out of the cork borer using a glass rod 
4.The potato strips are cut to the exact length of 5 cm 
5.One potato cylinder is placed in each labeled test tubes for 30 minutes 
6. After 30 minutes the potato strips are removed from the test tube and gently wiped with filter paper 
7 The final length of the potato strips are measured and record using a ruler 
8. The final length of the potato strips are recorded in a result table .
9. A graph of the concentration of sucrose solution against the change in the length is plotted Presentation.

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117
117
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Sim Shin Xuan 1181101676
Sim Shin Xuan 1181101676
Hypothesis: Human height is a continuous variation.
Steps
1) 5 student is randomly selected in the class.
2) The height of each student in the class is measured and recorded.
3)The reslult is then grouped into different ranges.
4)A histogram for the number of students against height is drawn.
5)A curve is drawn joining the midpoint of the top of each box to form a normal curve .
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Goh Wei Xuan 1171103226
Goh Wei Xuan 1171103226
Hypothesis:
The balloon become bigger.
Steps:
Carefully pour the vinegar into the bottle.
This is the tricky part: Loosen up the balloon by stretching it a few times and then use the funnel to fill it a bit more than half way with baking soda. If you don’t have a funnel you can make one using the paper and some tape.
Now carefully put the neck of the balloon all the way over the neck of the bottle without letting any baking soda into the bottle.
 Lift the balloon up so that the baking soda falls from the balloon into the bottle and mixes with the vinegar. Watch the fizz-inflator at work!
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Tan Zhe Wen 1171103472
Tan Zhe Wen 1171103472
Hypothesis:
 the larger the surface area the more diffusion can occur.
Steps:
 1- Cut the agar into five different-sized cubes (from 2mm to 10mm) using a sharp razor and calipers on a white tile
2- Add 5cm3 of  1M of hydrochloric acid to each of the boiling tubes and label the boiling tubes with the size of the agar cube
3- Manipulate the cubes into the boiling tube and start the stopwatch on contact of acid and agar. Make sure to not touch the cube as liquid make diffuse in or out of the agar on touch
4- Stop the stopwatch when the cube goes a light orange from a dark brown / orange in the cube
5- Record the results and plot a graph 
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LOH ZHI XIN(LM01)
LOH ZHI XIN(LM01)
1171103122
Hypothesis: The longer the length of a simple pendulum, the longer the period of oscillation 
Steps: 
The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum, l is measured to 80 cm as per the diagram.
With the thread taut and the bob at rest, the bob is lifted at a small amplitude (of not more than 10°). Ensure that the pendulum swings in a single plane.
The time for ten complete oscillations of the pendulum is measured using the stopwatch.
Step 3 is repeated, and the average of both readings are calculated.
The period of oscillation, T is calculated using the average reading divided by the number of oscillations, i.e. 10.
T2 is calculated by squaring the value of T.
Steps 1 to 6 are repeated using l = 70 cm, 60 cm, 50 cm, and 40 cm.
A graph T2 versus l is plotted. 
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Seet Wan Ting (1181100261)
Seet Wan Ting (1181100261)
Hypothesis: Antibiotic can penicillin kills bacteria.
Steps:
1:Using sterile petri dishes and nutrient agar, set up two petri dishes A and B.
2:Then contaminate the nutrient agar by adding a little culture of Bacillus subtilis in each dish and swirl the dishes to spread out the culture solution evenly.
3:Place a penicillin tablet in the middle of dish A.
4:Tape the two dishes with sellotape. Invert the dishes and incubate the bacteria at room temperature for 2 days.
5:Observe the two dishes after 2 days.
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1181101768 (Loong Jiehyi)
1181101768 (Loong Jiehyi) 
Hypothesis:The greater the mass, the greater the inertia. 
Steps:
1. One end of jigsaw blade is clamped to the leg of the table using a G-shaped clamp. 
2.A 20g of plasticine ball is fixed at the free end of the blade. 
3.The free end of the blade is displaced horizontally and released so that it oscillates. The time for 10 complete oscillation is measured using stopwatch and this step is repeated 2 times.The average for 10 complete oscillation is calculated. Then the period of oscillation is determined. 
4.Steps 2 & 3 are repeated by replacing 20g of plasticine ball with masses of 40g,60g,80g,and 100g.
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Grace Goh Man Jing (1171103751
Grace Goh Man Jing (1171103751
Hypothesis: Vinegar will affect the fruits to last longer 

Steps: 1) Prepare the fruit you want to use, add vinegar into a pot and allow vinegar to come to a boil.
            2) Add salt ,chilli powder ,coarse brown sugar and continue to boil.
            3) Add dried fruit to mixture and allow to boil for few minutes until mixture thickens.Stir continuously to avoid burning or scorching.
            4)Remove from stove and allow to cool before bottling.
            5) Store in refrigerator. After 1 week , you can find that the fruits still not rancid and still can eat.
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TAN XIN YEE (1171103467)
TAN XIN YEE (1171103467)
Hypothesis : Pure iron rust faster than steel while stainless steel does not rust easily.

Steps: 
1.Three test tubes are half-filled with jelly solution and are labelled as A,B and C.

2. 1cm3 of potassium hexacyanoferrate  (III) solution is added to every test tube.
 
3. An iron nail, a steel  nail and a stainless steel nail are polished with sandpaper to remove any rust formed. Then nails are then placed in the three test tubes labelled A,B and C respectively

4. All three test tubes are allowed to stand for 5 days before they are examined. 

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Lau Xin Lin (1171103689)
Lau Xin Lin (1171103689)
Hypothesis: 
Slime is made from white craft glue and liquid starch.

Steps:
1.  Pour all of the the glue into the mixing bowl.

2. Pour all of the water to the mixing bowl with the glue.

3. Stir the glue and water together.

4. Add your food color (about 6 drops).

5. Now add the liquid starch and stir it in.

6. As you play with your slimy concoction, it will become more stretchy and easier to hold.

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Shaun Lee Xuan Feng (1181101402)
Shaun Lee Xuan Feng (1181101402)
Hypothesis : Detergent can remove scum with hard water.

1. Prepare 2 cloths with stain.
2. Fill 2 basin with 1000ml of hard water and 1000 ml of soft water respectively.
3. Place a cloth into each basin and leave it for a minute.
4. Pour 100ml of detergent and 100ml of soap into each basin respectively.
5. Stir the mixture well.
6. Leave it for 30 minutes.
7. Record the observations in a table.
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SAMIA NADEEM (1171103189)
SAMIA NADEEM (1171103189)
Hypothesis: Plants need light to grow

1. Fill 6 pots with soil.
2. Plant one bean seed in each pot. Make sure you gently cover each seed with a shallow layer of soil.
3. Place three of the pots outside in a spot that receives lots of sunshine. If the weather is too stormy or overcast, position the pots under a grow light.
4. Place the remaining three pots in a dark cupboard.
5. Spray all your planted seeds gently with a mister.
6. Now it's time to wait. To get the best results, you'll want to observe your seeds for at least three weeks. Make sure you use the mister every couple of days.
7. At the end of each week, take a close look at each of your pots.
8.Once a full three weeks have passed,did the absence of light make a difference?
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1171103274(NG JIA XUAN)
1171103274(NG JIA XUAN)
Hypothesis: If more water was be taken, more urine will be released.

STEP:
1. Choose two students and instruct them to empty their bladders before experiment start.
2. Give student A 400 ml and student B 800 ml  of mineral water to drink.
3. Start the stop watch immediately after consuming the water.
4. Instruct the students not to eat or perform vigorous physical activity.
5. Ask the students empty their bladder after half an hour.
6. Collect the urine in a large beaker.
7. Measured the urine by using measuring cylinder.
8.Record the data collected into a table.
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LM02 NG YIN YEN(1171103495)
LM02 NG YIN YEN(1171103495)
Hypothesis:The total momentum before collision is equal to the total momentum after collision,provided there are no external forces acting on the system.
Step:
1.The apparatus is set up as shown in the diagram.
2.Two trolleys A and B of equal mass are placed in contact with each other on an even and smooth surface.Two wooden blocks are placed on the same row at the end of each trolley respectively.
3.The vertical trigger on trolley B is given a light tap to release the spring-loaded piston which then pushes the trolleys apart.The trolleys collide with the wooden blocks.
4.The positions of the wooden blocks are adjusted so that both the trolleys collide with them at the same time.
5.The distances, Da and Db are measured and recorded.
6.The experiment is repeated with different masses of trolleys.
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Soh Chun Wei (1181100955)
Soh Chun Wei (1181100955)
Do an experiment to study 
Hypothesis : How many sugar percaentage in our unrine ?

1.Take 2 ml urine sample in a measuring cylinder from the urine sample bottle.
2.Take a test tube and pour the urine sample in it.
3.Take 5 ml Benedict’s reagent in a measuring cylinder.
4.Add Benedict’s reagent to the test tube that contains urine sample.
5.Using a test tube holder, hold the test tube firmly and heat it for 2 minutes on the burner.
6.Keep shaking the test tube while heating.
7.A yellow precipitate appears which indicates the presence of sugar in urine.
8.Depending upon the concentration of sugar in the urine, either green, yellow, or brick red precipitates are formed. 

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Tan Siong Kai 1171103861
Tan Siong Kai 1171103861
Hypothesis: Salt can increase the boiling point and  the freezing point of the water.

1.Prepare the apparatus needed such as ice, bunsen  burner, beaker , tripod stand ,thermometer, salt,resistance thermometer and water.
2.Half fill the beaker with water and boil it with bunsen burner on the tripod stand.Observe and record the maximum temperature.
3.Put some salt into a beaker which half fill with water and boil it.Record the maximum temperature it can acheive.
4.Pour the water into the beaker fill with ice .Observe and record the final temperature by thermometer.
5.Put some salt into the beaker fill with ice and water.Record the final temperature acheive by the resistance thermometer.


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HO WAN ER (1171103834)Hypothesis: Words are read faster than colors are named.
HO WAN ER (1171103834)Hypothesis: Words are read faster than colors are named.
Steps:

1. Prepare a list of words of colors and printed with different color. For examples, word "RED" but printed in yellow color.
2. Find two person of same age and same gender.
3. Give them the list of words.
4. Ask them to say the colors of the words instead of read the words as fast as they can.
5. Calculate the time they needed to say all the color correctly.
6. Determine whether they can say the color of words without hesitation.
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Annie Tan Sin Ling 1171103790 Hyphotesis : Presence of impurities will increase the boiling point of distilled water
Annie Tan Sin Ling 1171103790 Hyphotesis : Presence of impurities will increase the boiling point of distilled water
1. Pour 100cm³ of distilled water into a beaker
2. Heat up distilled water until it boils
3. Observe and record the boiling point by using thermometer
4. Repeat the experiment with mixture of distilled water and salt
5. You will observe that the boiling pointof mixture water and salt increase
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1171103531 Grace Ng Yee Lin
1171103531 Grace Ng Yee Lin
Hypothesis : Colour can help humans in memorizing process. 

(1) Prepare 4 copies of 50-70 words reading material with similar content but different colour of words
 Copy A and B : words in black colour
 Copy C and D : words in different colours 

(2) Find 4 peoples of the same age. 

(3) Let four of them to memorize the material in 15 minutes. 

(4) After 15 minutes, ask them to read out the content without looking at the material. 

(5) Determine who can remember more. 
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Lm01 Jane Lee Le Xuan 1171103547
Lm01 Jane Lee Le Xuan 1171103547
Hypothesis:
During the change of state of naphthalene from liquid to solid,there is no change in temperature.

1. The apparatus set up as shown in the diagram.
2. The naphthalene is heated until the temperature reaches 95°C.
3. The boiling tube is then removed from the water bath and the outer part of the tube is dried.
4. The temperature of the naphthalene is recorded every minutes until the temperature drops to about 60°C
5. A graph of temperature against time is drawn.
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LM01 TAN YING HUI
LM01 TAN YING HUI 
1171103826
Hypothesis : The potential difference across the terminals of dry cells decrease when the current supplied by the cells increase 
procedure:
1.A circuit as shown in the diagram above is set up. 
2.The switch is started. The rheostat is adjusted until the ammeter reading shows 0.2A. 
3.Step 2 is repeated with current values of 0.3A, 0.4A, and 0.5A. 
4.A graph of V against I is plotted. The slope of the graph is calculated and the V-crossing is extrapolated. 
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1171103778 Cristy Fo Hui Chi
1171103778 Cristy Fo Hui Chi 
Hypothesis: Gases expand when heated.
Steps :
Use a pair of scissors to make a hole in the top of the bottle lid, big enough for the drinking straw to fit through.
Fill the bottle halfway with cold water.
Add a few drops of food colouring and mix.
Screw on the bottle lid and insert the straw through it into the water, making sure that the straw does not touch the base of the bottle.
Seal around the hole in the lid using play dough, thereby fixing the straw in place. The seal must be completely airtight.

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LM01
LM01 
1171103443
Leom Teng Xiang
Hypothesis: The angle of reflection is equal to the angle of incidence.
Steps:
1. A ripple tank is set up.
2. A plane reflector is place in the middle of the tank so that it is parallel with the incident wavefronts. The reflected waves are observed through the stroboscope. 
3. The reflector is then adjusted so that the incident waves approach the reflector at incident angle of 20°, 40°, 60° and 80°. For each situation, the reflected angle is observed.
4. The wavelegth of incident length and reflected waves are observed and compared.
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Inclined Planes
Inclined Planes
Hypothesis: The larger the angle of incline, the higher the velocity before reaching the end of the runway.
Aim: To study the relationship between the 
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1171103555 (Kuan Kah Ming)
1171103555 (Kuan Kah Ming)
Hypothesis: When the length of the pendulum increase, the oscillation time increase
Experiment procedure:
1. Two thread are prepare with length of 5cm and 10cm
2. A pendulum is attach to the 5cm thread on retort stand.
3. The pendulum is pull to the height of 50cm measured from the meter rule behind the retort stand.
5. The pendulum usb released and the time of oscillation is recorded.
6. The result are recorded.
7. Tabulate the data.
8. Step 1 until 7 is repeated with the thread of 10cm

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Inclined Planet
Inclined Planet 
Hypothesis : The larger the angle of incline , the higher the velocity just before reaching the end of the runway
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LM01 Ong Jie Ying (1171103488)
LM01 Ong Jie Ying (1171103488)
Hypothesis: The air from different environments does not contain the same amount of solid pollutants.
 
Steps : 
1) Prepare 5 slides and label A, B, C, D and E.
2) A piece of cellophane tape with adhesive surface facing upward is stuck on each side. 
3) Place the slide at five spots in five different types of environments.
   a) Slide A - place in a closed Petri dish 
   b) Slide B - place in an open field
   c) Slide C - place in a classroom 
   d) Slide D - place in an air-conditioned  room 
   e) Slide E - attach it to a lamp post in a car park 
4) All slides are left aside for a week. 
5) All slide are collected after one week and each viewed under a microscope using a low power.
6) Record the observation in a table.
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LM02 Chua Kai Ying (1171103782)
LM02 Chua Kai Ying (1171103782)
Hypothesis: The longer the length of a simple pendulum, the longer the period of oscillation.

Steps:
1) The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum is measured to 80cm.
2) With the thread taut and the bob at the rest, the bob is lifted at a small amplitude(not more than 10°)Ensure the pendulum swings in a single plane.
3) The time for ten complete oscillations of the pendulum is measured using the stopwatch.
4) Step 3 is repeated and the average of both readings are calculated.
5) The period of oscillation, T is calculated using the average reading divided by the number of oscillations.
6) T² is calculated by squaring the value of T.
7) Step 1 to 6 are repeated using the length of 70cm, 60cm, 50cm and 40cm.
8) A graph is plotted.
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LM01 Lim Hui Ying
LM01 Lim Hui Ying
(1171103523)
Hypothesis : The longer the wire, the higher the resistance.
1.A eureka wire is connected in the circuit as shown in the diagram.
2.The length of the wire between X and Y is adjusted to 20 cm.
3.The switch is closed and the rheostat is adjusted until the ammeter reading , I is 0.5A.The voltmeter reading is recorded.
4.Step 3 is repeated for wire lengths 40cm,60cm,80cm and 100cm.
5.The resistant ,R =V/I is calculated for each length.
6.A graph of R against I is plotted.
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LM 01 Elaine Khoo Sue Mae
LM 01 Elaine Khoo Sue Mae
(1171103416)
Hypothesis: The angle of reflection is equal to the angle of incidence
Steps:
1) A ripple tank is set up.
2) A plane reflector is placed in the middle of the tank so that it is parallel witg the incident wavefronts.The reflected waves are observed through a stroboscope.
3)The reflector is then adjusted so that the incident was approached the reflector at incident angles of 20°,40°,60°.
4)The wavelength of the incident and reflected waves are observed as compared.

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LM01
LM01
Ong Jing Song 1171103047
Hypothesis : Using artificial light will affect the growth on plant.

Put potting soil into the 2 plant pots, and bury a bean seed under half an inch of soil in each pot.
Mist the soil gently so that the beans have water.
Place 1 plant in a box.
Put the light bulb in the desk lamp.
Place the lamp over the box so that the light does not escape from the box. Make sure that it is not touching any paper!
Turn the light on every morning and turn  off every evening.
Place your second bean seed in a sunny window. Make sure that the soil stays damp, but not too wet.
After a week, you will likely see a sprout coming out of the soil. Wait for another week or more, then turn on the light in the room and take a photo of each bean plant. Label the photos with the type of light the plant received. 
Wait for two weeks or more, then take a photo of each plant and observe what has happen to each plant
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LM 01 Russel Lim Feng Han (1171103424)
LM 01 Russel Lim Feng Han (1171103424)
Hypothesis: Aerobic exercise are healthy way to help loss weight
Step:
1.	Randomly select 100 students from the collage which weight between 58kg to 68 kg
2.	Evenly divide 100 of students into two group, experimental group and control group
3.	Experimental Group will joining an aerobic program for a month and control group will be taking weight loss supplement for a month
4.	After one month , carry out a test which include weight ,BMI ,body fat content test.
5.	The result show both group have significantly loss weight but the control group may facing side effect for using fat loss supplement, so the result show aerobic exercise are more healthy in term to loss weight

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Yap Jin Hong - 1181100731
Yap Jin Hong - 1181100731
(T1A)
Hypothesis:The rate of transpiration in a leafy shoot is higher than the rate of transpiration in a shoot without leaves.

1. Cut a balsam shoot under water to prevent air from entering the xylem.

2. Fill potometer with water,make sure no air bubble inside and insert balsam shoot through under water.

3. Open tap of water reservoir to fill the graduated capillary tube with water.

4. The air bubbles move from B to A when transpiration occur.

5. The experiment can repeated a few times to find the average reading for rate of transpiration
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Nur Sarah Najihah Binti Nor Alahyadi,T2A (1181101195)
Nur Sarah Najihah Binti Nor Alahyadi,T2A (1181101195)
Hypothesis: Volcanic clay mask actually works in tightening skin pores.

1)      Randomly select a large number of people from the whole population who has big pores
2)      Randomly divide them into 2 groups; an experimental group and a control group.
3)      Treat the two groups exactly the same (giving skin treatment using masks) except that I give the experimental group treatments with volcanic clay mask and I give the control group a placebo, that is, regular clay masks that do not have anything beneficial to pores and skin.
4)      Conduct the study double-blind. That is, I make sure that neither the dermatologists nor the subjects know which of the subjects is getting the volcanic clay mask and which is getting the placebo.
5)      The experiment was handled for 2 weeks and the subjects were not allowed to use any other skincare products to actually see if the volcanic clay mask works.
6)      After two weeks, the progress of subjects’ skins were examined. If the experimental group skins’ pores are tighten and the skins’ condition were better than the controlled group, it can be concluded that volcanic clay mask actually helps in tightening skin pores.

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Angelina Chow (1181100481)
Angelina Chow (1181100481)
Hypothesis : Plants grow healthily in a complete Knop's solution.
Steps :
1) Randomly select 40 maize seedlings regardless of seedlings' size and species and divide them into Group A and Group B.
2) Place the maize seedlings into glass jars which are connected to an air pump to provide aeration to the roots so that respiration can take place.
3) Fill the jars of Group A with Knop's solution without magnesium and Group B with complete Knop's solution (Containing all the nutrients needed by plants).
4) Wrap the glass jars with black paper to prevent the growth of green algae which will deplete the nutrient content and affect the experiment.
5) Replace both solutions every week to replenish the nutrients absorbed by the maize seedlings.
6) Treat both groups exactly the same in terms of the volume of solutions given, place of experiment and etc except for the type of Knop's solutions
7) Record all observations on the growth of each plants in both groups after one month.
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LM01
 LM01 
1171103400
Ng Qing Ya
Hypothesis: While doing revision listening to music will affect learning progress.

1. Randomly select 50 students from one class.

2. Randomly divide them into two groups: one group leave them studying while listening to music, the next group just studying in a quiet place.

3. After that, let all of them taking a quiz.

4. Result show that the group of students who study in a quite place were getting a better exam grade than students study while listening to music.
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LM01 1171103153 Tham Jie Shi
LM01 1171103153 Tham Jie Shi
Hypothesis:Lemon is acidic enough to carry an electric charge and act as a battery
Steps:
1)Prepare two lemons,a sharp knife,three 4'' pieces of copper wire,six alligator clips,1.5V mini light bulb and holder,Galvanized nail (nail covered in zinc),and penny or thick copper wire.
2)Carefully use a sharp knife to cut two slits in each lemon about 1/2'' deep. Make sure that the inside of the lemons are exposed. If the skin is thick, make the insertion deeper until the fruit is exposed.
3)Insert the copper wire or penny into one slit and the nail into the other slit for each lemon.
4)Attach an alligator clip to each end of each piece of wire.
5)Attach one end of the first wire to the nail in the first lemon. Attach the other end of this wire to the light bulb.
6)Connect a second wire from the copper wire in the second lemon to the light bulb.
7)Lastly, using the third wire, connect the nail in the second lemon to the copper wire in the first lemon.
8)Observe what happens to the light bulb.
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Lim Yu Jie(1181101201)
Lim Yu Jie(1181101201)
Hypothesis : The greater the heat supplied to water of fixed mass, the greater the rise in temperature of water.
 
Steps:
1) Prepare 0.5l of water in a kettle and put it on induction cooker.

2) Measure the initial temperature of water by using thermometer.

3) Then, press the start button and Increase the temperature of the cooker to 50 0C to boil the water.

4) After 5 minutes, stop the cooker and quickly measure the final temperature of water. Then calculate the rise in temperature of water.

5) Repeat the experiment by increasing the temperature level of cooker to 60 0C, 70 0C and 80 0C with constant volume of water and time taken.
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Bok Hui Ling ( 1181100160 )
Bok Hui Ling ( 1181100160 )
Hypothesis: Music would affect dog’s behavior

Steps:
1)     Randomly selected 40 dogs and divided them into two groups.
2)     Experiment are carried out in same location, with the same lighting, furniture, and conditions every time.
3)     A group of dogs are tested with music.
4)     The control group would be used to set a baseline behavior, and how dogs behaved without music.
5)     The other group could then be observed and the differences in group’s behavior could be analysed.
6)     It was found that dogs do show more relaxed and calm behaviors when specific type of music plays.



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LM01 Er Pei Ling (1171103502)
LM01 Er Pei Ling (1171103502)
Hypothesis: Impurities would effect the boiling point of water.
Steps:
1) Prepare the two beakers which contain the distilled water and labelled them as Beaker A and Beaker B.
2) Add common salt into the Beaker A, while the Beaker B remains unchanged.
3）Heat the Beaker A and Beaker B until them boil.
4) Record the boiling point of the Beaker A which contains the mixture of distilled water and the common salt, and also record the boiling point of the Beaker B which is just containing the distilled water.

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Pendy Tok (1181101110)
Pendy Tok (1181101110)
Hypothesis: Living environment affects the rate of survival in nature.

Steps:
1. Randomly select 40 bunnies and divide them into 2 groups which are Group A and Group B regardless of colour and variety.
2. Both groups are treated exactly alike, except the living environment. Group A lives under humans' care while Group B lives in wildlife sanctuary. 
3. Both groups' conditions are under control by injecting bioelectronic chips into the bunnies to ensure the survival of bunnies before the experiment starts.
4. After half a year of preparation, all the bunnies have grown up. Both groups are released to the wild.
5. Observations on the survival of rabbits in long duration are recorded.
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LM01 Low Siew Hui 1171103394
LM01 Low Siew Hui 1171103394 
Hypothesis:The battery would effect the function to light bulb
Steps:
1)Prepare two battery, battery A have function, battery B have no function 
2)Put each battery in each light bulb.
3)Open the suis
4)Observe the result after the experience and record it. 
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LM01 Liang Hui Li (1171103330
LM01 Liang Hui Li (1171103330
Hypothesis:The amount of water given would effect the growth of plant.
 Steps:
 1)Prepare two flower pot , each flower pot contains the same amount and type of soil.
2)Put 10 bean seeds into each flower pot.
3)Place both of the flower pot in the same window.
4)Flower pot A would be watered everyday in the morning while flower pot B would not get watered.
5)Observe the result after one month.
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LM01 Gan Qian Han (117110
 LM01 Gan Qian Han (1171103276)
LM01 Gan Qian Han (1171103276)
Do a experiment for study
1) a good student come in the last class
2) everyone in the last class was lazy and do their own things, didn’t want to listen to the teacher 
3) the good student will felt uncomfortable for being good and start to being bad to get in that last class 
4) at last, the good student becomes a bad student just like other 
This experiment show that a person would felt uncomfortable when other people act not like them. He will try to act like them although he thinks that he and the other are doing the wrong things. But, he want to be same with other, so he also done the wrong things 
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LM01 Gan Qian Han (1171103286）
LM01 Gan Qian Han (1171103286）
Do a experiment for study
Hypothesis: A reaction of good student after go to the last class
Steps:
1) a good student come in the last class
2) everyone in the last class was lazy and do their own things, didn’t want to listen to the teacher 
3) the good student will felt uncomfortable for being good and start to being bad to get in that last class 
4) at last, the good student becomes a bad student just like other 
This experiment show that a person would felt uncomfortable when other people act not like them. He will try to act like them although he thinks that he and the other are doing the wrong things. But, he want to be same with other, so he also done the wrong things 
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1171103489 Lee Derk Xin
1171103489 Lee Derk Xin
Hypothesis : The angle of reflection is equal to the angle of incidence

Procedure : 
1. A ripple tank is set up
2. A plane reflector is placed in the middle of the tank so that it is parallel with the incident wavefronts. The reflected waves are observed through a stoboscope.
3. The reflector is then adjusted so that the incident waves approach the reflector at incident angles of 20, 40, 60 and 80 degree. For each situation, the reflected angle is observed.
4. The wavelength of the incident and reflected waves are observed and compared.
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1171103341 （LM01 Ivy See）
1171103341 （LM01 Ivy See）
Hypothesis: The vegetable oil will react with the alkali to form soap during saponification process. 

Procedure:
 1.  The animation below shows the arrangement of the apparatus and the observation of the experiment.
2. 5cm3 of palm oil are measured by measuring cylinder and poured into a beaker.
3. 30cm3 of sodium hydroxide are measured and added into the beaker.
4. The mixture is stirred constantly and heated until boiling for about 10 minutes.
5. 50cm3 of water and one spatula of sodium chloride are added into the beaker.
6. The mixture is boiled for another 5 minutes and then cool down to room temperature.
7.  Product formed are filtered and dried with pieces of filter paper.
8. The residue is then touched using fingers.
9. The residue is then mixed and stirred together with water.
10. The experiment is repeated with different vegetable oil.

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LM01 1171103672(Gan Li Hui)
LM01 1171103672(Gan Li Hui) 
Hypothesis： Greater light intensity gives a greater rate of photosynthesis.
Procedures
Leave for five minutes for the pondweed to acclimatise to the new light intensity.
Count the number of bubbles given off in one minute.
Move the light 10 cm further back.
Leave for five minutes for the pondweed to acclimatise again.
Repeat by moving the lamp away by 10 cm intervals until 50 cm is reached.

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1171103368 (Angelin Tan Li Xin ,LM 01)
1171103368 (Angelin Tan Li Xin ,LM 01)
Hypothesis : The bouncy ball can be bounced over a foot high and the ball has quite a unique to feel it.

Procedure:
Label one cup ‘Borax Solution’ and the other cup ‘Ball Mixture’.
Pour 4 ounces (120ml) of warm water into the cup labeled ‘Borax Solution’ and 1 teaspoon of the borax powder into the cup. Stir the mixture to dissolve the borax.
Pour 1 tablespoon of glue into the cup labeled ‘Ball Mixture’. Add 3-4 drops of food coloring, if desired.
Add 1/2 teaspoon of the borax solution you just made and 1 tablespoon of cornstarch to the glue. Do not stir.
Allow the ingredients to interact on their own for 10-15 seconds and then stir them together to fully mix.
Once the mixture becomes impossible to stir, take it out of the cup and start molding the ball with your hands. The ball will start out sticky and messy, but will solidify as you knead it. Once the ball is less sticky, continue rolling between your hands until it is smooth and round!
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1181101030 ( Eugene Tan Kok Yew )
1181101030 ( Eugene Tan Kok Yew )
Hypothesis: 
People in a rush would be much less likely to show helping behavior. 

Procedures:
1. Participants were told to travel from one building to the next. 
2. Participants were given instruction to some being told not to rush and others being informed that speed was of the essence. 
3.  Between the two buildings was a man lying injured and appearing to be in dire need of assistance. 
4. Observe the number of participants who helped the man and who don't.

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1181100409 Leong Hang
1181100409 Leong Hang 
Hypothesis :  The more the amount  of baking soda or vinegar is added, the higher the eruption of the baking soda volcano. 

Procedure:
First, make the 'cone' of the baking soda volcano. Mix 6 cups flour, 2 cups salt, 4 tablespoons cooking oil, and 2 cups of water. The resulting mixture should be smooth and firm (more water may be added if needed).
Stand the soda bottle in the baking pan and mold the dough around it into a volcano shape. Don't cover the hole or drop dough into it.
Fill the bottle most of the way full with warm water and a bit of red food color (can be done before sculpting if you don't take so long that the water gets cold).
Add 6 drops of detergent to the bottle contents. The detergent helps trap the bubbles produced by the reaction so you get better lava.
Add 2 tablespoons baking soda to the liquid.
Slowly pour vinegar into the bottle. Watch out - eruption time!
Conclusion: Hypothesis is accepted.
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LM01 NG JIA HUI (1171103571）
LM01 NG JIA HUI (1171103571）
Hypothesis: Bacteria grow well in the dark than in the light.

Procedures:
1. Put nutrient agar and 1cm³ of bacterial culture into two petri dishes and label A and B.
2. Close the petri dishes and seal with cellophane tape.
3. Store petri dish A in a dark cupboard and petri dish B under a lighted lamp.
4. Left the both petri dishes for two days.
5. Record the number of bacterial colonies in each petri dish at the end of the experiment. 
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1171103510 ( Pok Xiao Lin LM01)
1171103510 ( Pok Xiao Lin LM01)
Hypothesis: A bone can be bended by using vinegar.

Procedure:
1. Have a nice chicken dinner and save a bone. Leg bones work best.
2. Rinse off the bone in running water to remove any meat from the bone.
3. Notice how hard the bone is – gently try bending it. Like our bones, chicken bones have a mineral called calcium in them to make them hard.
4.Put the bone into the jar and cover the bone with vinegar. It might be a good idea to put the lid on the jar or cover it – let it sit for 3 days
5. After 3 days remove the bone. It should feel different. Now can rinse it off and try bending it again. 
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1171103867 ( Tey Wan Teng)
1171103867 ( Tey Wan Teng)
Hypothesis: People weight more in the afternoon compared to the morning.

Procedure:
1. Choose 30 - 40 people of all ages randomly.
2. Weight all of them in the morning around 8am to 10am.
3. Observe and record the results.
4. Then, weight all of them in the afternoon around 1pm to 3pm.
5. Observe and record the results again.
6. Analyse and compare the results.
7. Carry out this experiment for three consecutive days for a more accurate result.
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1171103831 (Verona Tan Xiang Ni LM01)
1171103831 (Verona Tan Xiang Ni  LM01)
Hypothesis: Does the surface tension makes the paper clip float on water?
Procedure:
1) Fill the bowl with water
2) Tear a piece of tissue paper about half the size of a dollar bill
3) Gently drop the tissue flat onto the surface of the water
4) Gently place a dry paper clip flat onto the tissue (try not to touch the water or the tissue)
5) Use the eraser end of the pencil to carefully poke the tissue (not the paper clip) until the tissue sinks. 
6) The tissue will sink and leave the paper clip floating
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Lee Chia Hao(1181100681-T1A
Lee Chia Hao(1181100681-T1A
Hypothesis: Learning point is a better place for study compare with library

Procedures :
1.Ramdomly pick 30 students from MMU.
2. Give order to half of them go to learning point study Critical Thinking Topic 1-4. And others go to library study the same topic.
3.Give them 1 hour to study.
4.After that ,give them the same test.
5.Observe,record and find the average mark for learning point and library.
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1181101482 ( SHAKTI RUBINEE)
1181101482 ( SHAKTI RUBINEE)
Hypothesis : Light is essential for photosynthesis.

Procedure :
1.Take the potted plant and keep it in a dark place for 2-3 days so that the leaves  gets destarched.
2.Cover a part of one of its leaves with the strip of black paper.Make sure that you cover both the sides of the leaf.
3.Now place this plant in sunlight for 3-4 hours.
4.Pluck the selected covered leaf and remove the black paper covering it.
5.Place this leaf in the beaker containing water and boil it for about 10 minutes.
6.Take out the leaf and now boil it in alcohol,using the water bath,for 10 minutes. This removes the chlorophyll.
7.Take out the leaf and wash it under running water.
8.Place this leaf in the Petri dish and put few drops of iodine solution on it. Now observes the change in colour.  
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1181100863 (Tan Kah Wai)
1181100863 (Tan Kah Wai)
Hypothesis: The higher the temperature,the shorter the time taken the water to completely evaporate.

Step 1 : Prepare two beakers and a timer.
Step 2 : Fill up the beakers with 500ml water.
Step 3 : Put each of the beakers outside in different time zone,one in afternoon,one at night.
Step 4 : Observe and record the time taken for the water to completely evaporate.

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1181100991 [ Tee Zi Jun ]
1181100991 [ Tee Zi Jun ]
Hypothesis : The increases the volume of water , the increases the time taken for reaching the boiling point.

Step 1 : Prepare the material such as beaker , bunsen burner , tripod stand , water and others.
Step 2 : Fill 500ml water into the beaker A and fill 1000ml water into the beaker B.
Step 3 : Put beaker A and B on the tripod stand and start boil the water by using bunsem burner.
Step 4 : Observe and record data of the time taken for which beaker reaching the boiling point.
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1181101663(Pravin A/L Morgan)
1181101663(Pravin A/L Morgan)
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1181101545(Muhammad Amir Aliff
1181101545(Muhammad Amir Aliff
Movement of substances across a semi-permeable permeable membrane

Procedure
 

1.Wet one Visking tubing. Tie a knot firmly at one end.

2.Pour 10ml of glucose solution and 10ml of starch suspension into the Visking tube. Tie a
knot at the top of the tubing. Record the colour of the mixture.

3.Rinse the outside of the Visking tubing using distilled water.

4.Pour 300ml of distilled water into a beaker. Add in 10ml of iodine solution. Record the
colour of its solution.

5.Imerse the Visking tubing in the beaker of solution for 3o minutes as shown in the
diagram.

6.After 30 minutes, remove the Visking tubing and transfer it into a dry beaker.

7.Record the colours of the contents in the Visking tubing and the solution in the beaker.

8.Test for the presence of glucose in the content of the Visking tubing and the solution in the
beaker using the following steps:
a.Pour 2ml of the solution into a test tube and add in 1ml of Benedicts solution.
b.Heat the mixture in a beaker of water bath. Record the change in colour


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1181101188 ( Muhammad Hakimi bin Hamidzul )
1181101188 ( Muhammad Hakimi bin Hamidzul )
Hypothesis: Blue ink is better for memorization compare to black ink
1. Choose two student randomly in the same class
2. Give them different pen, one with blue ink and another one with black ink
3. Ask them to rewrite a text that had been given
4. Ask them several questions after they had finish writing 
5. Record the results of the correct answer by both student
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Anonymous 1d
amazing work miki!
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1181101618 (Premshanthiyaa A/P Sagardevan)
1181101618 (Premshanthiyaa A/P Sagardevan)

Hypothesis: Egg can float on the high concentrate of salt water.

Procedure: 
 
Carefully place the egg into the glass of water.

Initially the egg will sink to the bottom.

Pour in two teaspoons of salt and stir carefully around the egg.

Continue to add the salt and stir until the egg rises.

Eventually the egg will float as salt water is denser than fresh water and the egg will weigh less than the water. 



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1181100520 (Siah Weelie)
1181100520 (Siah Weelie)
Hypothesis: the longer the playing online game, the lower the result of exam.
Steps:
1. Random choose 10 student from classroom.
2. Random choose five out of ten and let they choose same online game.
3. setting a minimum limit time (3 hour or more) for playing same online game
4.give they a test after 1 month
5.record and compare their result 
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1181100599( Lee Sye Ling) T1A
1181100599( Lee Sye Ling) T1A
Hypothesis:The reactivity  of a radioactive sample decreases exponentially with time.

Procedure:

1)Place 400 coins which are painted black on one face into a box.

2)Shake the box well .Then toss the all the coins out of the box onto a table.

3)Remove the coins with the face painted black facing upwards.

4)Record the number of coins removed.Then count and record all coins which are not removed as N and place them back into a box.

5)Can repeat a few times to get the different results.
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1181100671(Tey Yee Yang Brandon
1181100671(Tey Yee Yang Brandon
Hypothesis:
Increase in temperature will increase the rate of reaction.

Procedure
1) 50 cm^3  of 0.2 mol dm^-3 sodium thiosulphate solution is measured using a measuring cylinder and poured into a conical flask.
2) The temperature of this solution is measured using a thermometer.
3) The conical flask is placed on a white paper marked with an "X" at the centre.
4) 5 cm^3 of 1 mol dm^-3 sulphuric acid is measured using a measuring cylinder.
5) The sulphuric acid is added quickly and the stopwatch is started immediately
6) The mixture is swirled a few times and placed back on the white paper.
7) The stopwatch is stopped when the "X' is no longer visible. 
8) Record the time taken
9) Repeat the experiment by using different temperature of sodium thiosulphate solution.
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1181102022 (VINOD A/L RAGHU
1181102022 (VINOD A/L RAGHU
Hypothesis: The higher the current flowing throught the solenoid, the stronger the electromagnet.

Procedure:
1)The metal rod is wrapped with 10 turns of the insulated copper wire and both ends are connected to a circuit as shown in diagram
2)The circuit is started and the rheostat is adjusted to get 1.0 A current.
3) One end of the elctromagnet is inserted into the dish of pins, and then removed. The current is switched off. The number of pins that were stuck to the electromagnet is counted.
4) The experiment is repeated  with current value of 2.O A. 3.0 A.4.0 A and 5.0 A.
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1181100453 (HAIQAL BAHRUDIN)
1181100453 (HAIQAL BAHRUDIN) 
HYPOTHESIS :
Human who can read normally still can read jumbled words

STEPS :
1. Choose three normal people who can read
2. Give three of them a letter with jumbled words
3. After all of them had read the letter, give them some questions based on the letter.
4. Observe and record their answer
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4 comments

Anonymous 1d
hensem ahh org besar yg disave gmbr ig

Anonymous 1d
orang dia besar,adik dia besar tak?

Anonymous 1d
emmmm xtau ahh,, nnti kita check.. guna critical thinking

Anonymous 1d
kena guna inductive argument ni...
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1181101067 (Iman Zarif bin Norfazli)
1181101067 (Iman Zarif bin Norfazli)
Hypothesis:
The more sleep a person gets,the more energy that person has for the next day

Steps:
1.Gather 20 people of the same age and divide the people into 2 groups of 10 person each
2.One group will get 8 hours of sleep while the other group will only get 4 hours of sleep
3.After the groups have woken up,all of them will be given a physical test and will be timed
4.Record the time taken for both groups to finish the physical tests
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Anonymous 1d
bats.. terbang !!
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1181100993 （ONG YUAN QIN）
1181100993 （ONG YUAN QIN）
Hypothesis: The total momentum before collision is equal to the total momentum after collision, provided there are no external forces acting on the system.

  Steps
1) The apparatus is set up shown in the diagram 
2) Two trolleys A and B of equal mass are placed in contact with each other on an even and smooth surface. Two wooden blocks are placed one the same row at the end of each trolley respectively.
3) The vertical trigger on trolley B is given a light tap to release the spring-loaded piston which then pushes the trolleys apart. The trolleys collide with the wooden blocks.
4) The positions of the wooden blocks are adjusted so that both the trolleys collide with them at the same time.
5) The distance,distance of A and distance of B measured and recorded.
6)The experiment is repeated with different masses of trolleys.
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(1181100675)(Lim kah chuan)
(1181100675)(Lim kah chuan)

Hypothesis:Bacteria thrive in neutral conditions but not in conditions that are very acidic and alkaline.

Procedure: 1) 5cm cube of hot nutrients agar into MC Cockey       
bottle A,B and C.
2). Let the agar solidify before adding 1 cm³ of bacteria culture solution on the surface of the 
solidified agar. 
3. Add 1 cm³ of hydrochloric acid into one Mc Conkey bottle , 1 cm³ of sodium hydroxide 
solution into the second Mc Conkey bottle, and 1 cm³ of distilled water into the third Mc 
Conkey bottle using syringes. 
4. Place the three Mc Conkey A,B and C inverted in a dark cupboard for two to three days. 
5. Record your observation on the growth of bacteria at the end of the experiment
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1181100935 (How Jun Jie)
1181100935 (How Jun Jie)
Hypothesis :
The longer the length of a simple pendulum, the longer the period of oscillation. 
Step:
1.The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum is measured to 80cm.
2.With the thread taut and the bob at rest, the bob is lifted at a small amplitude. 
3.The time for ten complete oscillations of the pendulum is measured using the stopwatch. 
4.Step 3 is repeated, and the average of both readings are calculated. 
5.The period of oscillation is calculated using the average reading divided by the number of oscillations. 
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1181101060 CHONG YOU LI (T2)
1181101060 CHONG YOU LI (T2)
Hypothesis : 
The longer time taken for the methylene blue solution to decolourize, the less polluted the water source is. 

Steps : 
Water samples are collected from four different sources
 (tap water, river water, pond water and drain water) and distilled water is used as a control.
Five reagent bottles are labelled as A, B, C, D and E respectively.
Each reagent bottle is filled with the following water sample. 
1ml of methylene blue solution is added by using a syringe to the base of each water sample  in each reagent bottle. 
Each reagent bottle is then closed quickly with a stopper.
The reagent bottle cannot be shaken.
Each reagent bottle is kept in a dark place (cupboard) and then the stopwatch is started.
The bottles are examined from time to time.
The time taken for methylene blue to decolorize is recorded.

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1181101337 (Tan Li Chong )
1181101337 (Tan Li Chong )
Hypothesis: The more book you read , the more question you can answer.

Steps
1.Collect 50 people to do this experiment.
2.Divide 50 people into 5 group.
3.The group name with group A,B,C,D,and E
4.Prepare 10 book about critical thinking , 10 book about computer application , 10 book about physic , 10 book about biology and 10 book about chemistry.
5.Give group A the book about computer application and critical thinking.
6.Give group B the book about physic
7.Give group C the book about biology
8.Give group D the book about chemistry
9.group E does not receive any book.
10.After 1 week, all the group A participant stay at exam hall and give the a test about critical thinking , computer application , physic , biology and chemistry.
11. After the test ,collect the marks about the participant.
12 .Repeat the experiment by Group B,C,D and E 

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1181100678(NG WEN DONG)
1181100678(NG WEN DONG)
Hypothesis: The larger the volume of water consumed, the larger the volume of urine excreted.
Procedures:
1. The night before the experiment, the participating students are not to consume any food or drinks after 10.00p.m.
2. Students are divided into four groups according to their average weight.
3. On the day of the experiment, each student drinks 500ml of distilled water in the morning one hour before the experiment.
4. Each student empties his or her urinary bladder and collects the urine sample at the beginning of the laboratory period.
5. Measuring cylinders are used to measure the volumes of these samples. These volumes are taken as the volume of urine excreted at the beginning of the experiment.
6. Immediately after that, each group is assigned to drink various amounts of distilled water.
Group 1 : 250ml of distilled water
Group 2 : 500ml of distilled water
Group 3 : 750ml of distilled water
Group 4 : 1000ml of distilled water
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1181101586 (ARRVEEN KUMAR A/L SURESH KUMAR)
1181101586 (ARRVEEN KUMAR A/L SURESH KUMAR)
 
Hypothesis: A person's weight is a continuous variation.
Steps
1) 10 student is randomly selected in the class.
2) The weight of each student in the class is measured and recorded.
3)The result is then grouped into different ranges.
4)A histogram for the number of students against weight is drawn.
5)A curve is drawn joining the midpoint of the top of each box to form a normal curve . 
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1181100738( LIEW YEE SEN, T1A )
1181100738( LIEW YEE SEN, T1A )
Hypothesis: The larger the weight, the deeper the depth.

Steps: 
1. Prepare two iron ball it's 1kg and 3kg, ring stand, rope, scissor, ruler and sticky block.
2. Use ring stand and rope binding 1kg iron ball and put the sticky block under the iron ball. 
3. Using scissor cut the rope and let the iron ball fell on the sticky block. 
4. Measure and record the depth that the iron ball fell on the sticky ball. 
5. Repeat the step 2-4 by using 3kg iron ball. 
6. Conclude it the deeper the depth with which weight of iron ball.
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1171102640(Hood)
1171102640(Hood)
 Hypothesis: increasing the temperature increases the rate of evaporation of water
steps:
1)the temperature increases which causes the molecules to move faster and more vigorously and increases the kinetic energy of the molecules .
2)the molecules with the higher temperature will escape to the surface and then evaporates.
3) if the water is in room temperature the molecules will stay stable 
4)so the molecules will not escape to the surface because it wont have kinetic energy and its not going to evaporate
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1171103841(Toh Tao Jie
1171103841(Toh Tao Jie
Hypothesis : The presence of yeast will affect the expansion of balloon.

Steps:
1. Fill the bottle up with about one inch of warm water.
( When yeast is cold or dry the micro organisms are resting.)
2. Add all of the yeast packet and gently swirl the bottle a few seconds.
(As the yeast dissolves, it becomes active – it comes to life! Don’t bother looking for movement, yeast is a microscopic fungus organism.)
3. Add the sugar and swirl it around some more.
Like people, yeast needs energy (food) to be active, so we will give it sugar. Now the yeast is “eating!”

4. Blow up the balloon a few times to stretch it out then place the neck of the balloon over the neck of the bottle.
5. Let the bottle sit in a warm place for about 20 minutes
If all goes well the balloon will begin to inflate!



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1181100425 (Lee Woei Jye, T1A)
1181100425 (Lee Woei Jye, T1A)
Hypothesis:the longer the length of simple pendulum,the longer the oscillation.
Procedure
1)The thread is tied to the pendulum bob.The other end of the thread is tied around the arm of the retort stand so that it can swing freely.The length of the pendulum,l is measured to 80cm as per the diagram.
2)With the thread taut and the bob at rest,the bob is lifted at a small amplitude (of not more than 10°).Ensure that the pendulum swings in a single plane.
3)The time for ten oscillations of the pendulum is measured using the stopwatch.
4) Step 3 is repeated , and the average of both readings are calculated.
5)The period of oscillation,T is calculated using the average reading divided by the number of oscillations i.e. 10.
6)T² is calculated by squaring the value of T.
7)Steps 1 to 6 are repeated using l=70cm,60cm,50cm,and 40cm.
8)A graph T² versus l is plotted
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1181100967 ( Lee Zhi Yang, T2A)
1181100967 ( Lee Zhi Yang, T2A)
Hypothesis: If more water is taken, more urine will be relaesed.
Procedures:
1) Two students are chosen at random and instructed to empty their bladders before the start of the experiment.
2) 200ml of water is measured and put  into the mug.
3) Student A and B are given 200ml of mineral drinking water to drink.
4) A stopwatch is started immediately after consuming the water.
5) During the experiment, they are kept within 2 hours.
6) They are instructed not to eat and perform any vigorous physical activities.
7) After half and hour, they are asked to empty their bladders.
8) The collected urine is kept in a large beaker.
9) At the interval of half and hour, until two hours, students empty their bladders.
10) After two hours, the total collected urine is measured using measuring cylinder.
11) Repeat steps 2-10 for different amount of drinking water ( 400ml, 600ml, 800ml, 1000ml ) for student A while the same amount of drinking water ( 200ml, 200ml, 200ml, 200ml ) for student B.
12) Step 11 is conducted for four consecutive days in a fixed time and place.
13) Measure and record the collected data into a table. 
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1181100850 (Wong Cong Zhi , T1)
1181100850 (Wong Cong Zhi , T1)
Hypothesis:  The deeper the actual depth, the deeper the apparent depth.
Steps:
1. A pin is mounted in a movable clamp on a retort stand.
2. Another pin is placed at the base  of the tall beaker. Water is filled as the actual depth to D= 7.0cm
3. The object pin O is observed form the top, and pun I is adjusted vertically until it appears to meet pin O. At this point, the position of pin I matches the apparent depth, d of pin ). The apparent depth is measured fro, the top of the water level to the position if pin I.
4.Step 4 is repeated by changing the actual depth to 9.0cm , 11.0cm , 13.0cm and  15.0cm.
5.The result are tabulated and a graph of D against d is plotted.

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1181100235(LOW QZHI YEE,T1A)
1181100235(LOW QZHI YEE,T1A)
Hypothesis:The presence of manganese(IV) oxide catalyst increase the rate of decomposition of hydrogen peroxide
Steps:
1)Fill water in the burette until it s full
2)Invert the burette in a basin of water and clamp the burette vertically
3)Adjust the water level in te burette and record the initial burette reading.
4)Measure and pour 50cm^3 of 0.5moldm^-3 of hydrogen peroxide into a conical flask.
5)Add a pinch of manganese(IV) oxide into the conical flask 
6)Close the conical flask immediately with stopper fitted with delivery tube.Start thestopwatch.
7)Collect 25cm^3 of oxygen gas released by downward displacement of water.
8)Swirl the conical flask throughout the experiment
9)Record the time taken to collect 25cm^3 of oxygen gas.
10)Repeat steps 1 to 9 with 50cm^3 of 0.5 moldm^-3 of hydrogen peroxide without the addition manganese (IV) oxide.
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1181100488 (Kuan Yong Qing, T1)
1181100488 (Kuan Yong Qing, T1)
Hypothesis:  
When the length, L, of a wire increases, its resistance, R, increases.
Steps: 
1. A 20.0 cm long eureka wire is connected between terminals X and Y.
2. Circuit is switched on and the rheostat is adjusted until the ammeter reading, is 0.5 A.
3. The reading, V, shown on the voltmeter is recorded.
4. The experiment is repeated using different lengths of eureka wire, L = 40.0 cm, 60.0 cm, 80.0 cm, and 100.0 cm.
5. Resistance, R, of the wire is calculated.
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1181100721(Ong Han Bin,T1A)
1181100721(Ong Han Bin,T1A)
Hypothesis: The air from different environments does not contain the same amount of solid pollutants.

Steps:
1.Five slides are prepared and labelled A,B,C,D and E.
2.A piece of cellophane tape with the adhesive surface facing upwards is stuck on each slide. 
3.The slides are  placed at five spots in five different types of environments.
 a)Slide A is placed in a closed Petri dish
b)Slide B is attached to a lamp post in a car park.
c)Slide C is placed in an open field.
d)Slide D is placed in a classroom.
e)Slide E is placed in an air-conditioned room.
4.All slides are left aside for a week.
5.All slides are collected after one week and each is viewed under a microscope using a low power.
6.The results is then be recorded.
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1181101099 (Tan Chun Keat , T2A)
1181101099 (Tan Chun Keat , T2A)
Hypothesis : The longer the wire , the higher the resistance.

Steps : 
1. A eureka wire is connected in the circuit together with the ammeter , voltmeter , battery , switch and rheostat using a connecting wire.
2. The length of eureka wire between two connecting points is adjusted to 20cm.
3. The switch is closed and the rheostat is adjusted until the ammeter reading , I is 0.5A. 
4. Step 3 is repeated for wire lengths 40cm , 60cm , 80cm and 100cm.
5. The resistance , R = V/I is calculated for each length.
6. A graph of R against I is plotted.

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1181100805 (Tan Zhan Jun
1181100805 (Tan Zhan Jun
Hypothesis: The diffusion of molecules through a semi-permeable membrane is based on the size of the molecules.

Steps:
1. A Visking tubing is soaked in water for a minute to soften it. 
2. One end of the Visking tubing is tied firmly with a piece of cotton thread of prevent leakage.
3. The Visking tubing is filled with 5 ml of glucose solution and 5 ml of starch suspension.
4. The other end of the Visking tubing is tied with another piece of thread. The colour of the solution is recorded.
5. The outer surface of the Visking tubing is rinsed with distilled water.
6. 400 ml of distilled water and 15 ml of iodine solution are mixed in a beaker. The colour of solution is recorded.
7. The Visking tubing is immersed in the beaker of solution and left to stand for 40 minutes.
8. After 40 minutes, the Visking tubing is transferred to a dry beaker.
9. The colour of the solutions in the Visking tubing and the beaker is observed and recorded.
10. Both solutions are tested for the presence of glucose using Benedict's solution.
11. 2 ml of each solution are poured into separate test tubes and 1 ml of Benedict's solution is then added to each test tubes.
12. The solution is heated in a boiling bath for about 5 minutes and the change in colour is then recorded.
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1181101874 (Erica, T3A)
1181101874 (Erica, T3A)
Hypothesis: The larger the weight, the longer the spring extension.
 
Steps:
1. The apparatus is setup as shown in the diagram.
2. The length of the spring without any weights, l0 is measured using the metre rule with the pin as reference. 
3. A 50 g weight is hung from the bottom of the spring. The new length of the spring, l is measured. The spring extension is l – l0.
4. Step 4 is repeated with weights 100 g, 150 g, 200 g, and 250 g.
5. A graph of spring extension, x against weight, F is plotted.
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1171103805 Tan Pei Kuan
1171103805 Tan Pei Kuan 
Hypothesis: Guava juice contains a higher concentration of vitamin C compared to orange juice and pineapple juice.

Steps:
1. Label four boiling tube as A, B, C and D.
2. Place 1ml of DCPIP solution in each boiling tube. 
3. Fill a syringe with 5ml of ascorbic acid solution.
4. Immerse the needle of the syringe in the DCPIP solution drop-by-drop.
5. Do not shake the tube vigorously.
6. Record the volume of ascorbic acid solution used to turn the DCPIP solution colourless using a syringe.
7. Repeat steps 2 to 7 using guava juice, pineapple juice and orange juice.
8. Calculate the percentage and concentration of vitamin C in these three types of fruit juice.

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1181101480 Luwe Yee Jia
1181101480 Luwe Yee Jia
Hypothesis: Does music have an affect on plant growth?

Steps:
1. Prepare two identical plants. 
2. Separate the position of two plants.
3. Grow a plant with music playing every day, and another one without music playing.
4. Two weeks later, record the length and width of stem and the number of leaves of both plants. 
5. If the plant with the music playing grew stronger and bigger, the hypothesis is accepted. 

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c
 c
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e potential difference ac
 e potential difference across the terminals of dry cells decrease w
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with stain. 2. Fill 2 b
  with stain.
2. Fill 2 basin with 1000ml of hard water and 1000 ml of so
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HEW ZHONG KEN (1181101119)
HEW ZHONG KEN (1181101119)
hypothesis : As the sucrose solution reach certain concentration (isotonic to the cell sap).there is no changes in the length of potato strip

steps:
1.six test tube are labelled P Q R.S,T and U.
 2.Test tube P is filled with 10ml distilled water, test tube Q is filed with 10ml sucrose solution O 1M test tube R is filled with 10ml sucrose solution 0.2M test tube S is filled with 10ml sucrose solution 0,3MThs tube is filled with 10ml sucrose solution 0.4M and test tubes U is filled with 10ml sucrose solution 0.5M 
3.The cork borer is pushed into the potato and the potato strip is obtained by pushing it out of the cork borer using a glass rod 
4.The potato strips are cut to the exact length of 5 cm 
5.One potato cylinder is placed in each labeled test tubes for 30 minutes 
6. After 30 minutes the potato strips are removed from the test tube and gently wiped with filter paper 
7 The final length of the potato strips are measured and record using a ruler 
8. The final length of the potato strips are recorded in a result table .
9. A graph of the concentration of sucrose solution against the change in the length is plotted Presentation.

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117
117
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Sim Shin Xuan 1181101676
Sim Shin Xuan 1181101676
Hypothesis: Human height is a continuous variation.
Steps
1) 5 student is randomly selected in the class.
2) The height of each student in the class is measured and recorded.
3)The reslult is then grouped into different ranges.
4)A histogram for the number of students against height is drawn.
5)A curve is drawn joining the midpoint of the top of each box to form a normal curve .
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Goh Wei Xuan 1171103226
Goh Wei Xuan 1171103226
Hypothesis:
The balloon become bigger.
Steps:
Carefully pour the vinegar into the bottle.
This is the tricky part: Loosen up the balloon by stretching it a few times and then use the funnel to fill it a bit more than half way with baking soda. If you don’t have a funnel you can make one using the paper and some tape.
Now carefully put the neck of the balloon all the way over the neck of the bottle without letting any baking soda into the bottle.
 Lift the balloon up so that the baking soda falls from the balloon into the bottle and mixes with the vinegar. Watch the fizz-inflator at work!
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Tan Zhe Wen 1171103472
Tan Zhe Wen 1171103472
Hypothesis:
 the larger the surface area the more diffusion can occur.
Steps:
 1- Cut the agar into five different-sized cubes (from 2mm to 10mm) using a sharp razor and calipers on a white tile
2- Add 5cm3 of  1M of hydrochloric acid to each of the boiling tubes and label the boiling tubes with the size of the agar cube
3- Manipulate the cubes into the boiling tube and start the stopwatch on contact of acid and agar. Make sure to not touch the cube as liquid make diffuse in or out of the agar on touch
4- Stop the stopwatch when the cube goes a light orange from a dark brown / orange in the cube
5- Record the results and plot a graph 
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LOH ZHI XIN(LM01)
LOH ZHI XIN(LM01)
1171103122
Hypothesis: The longer the length of a simple pendulum, the longer the period of oscillation 
Steps: 
The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum, l is measured to 80 cm as per the diagram.
With the thread taut and the bob at rest, the bob is lifted at a small amplitude (of not more than 10°). Ensure that the pendulum swings in a single plane.
The time for ten complete oscillations of the pendulum is measured using the stopwatch.
Step 3 is repeated, and the average of both readings are calculated.
The period of oscillation, T is calculated using the average reading divided by the number of oscillations, i.e. 10.
T2 is calculated by squaring the value of T.
Steps 1 to 6 are repeated using l = 70 cm, 60 cm, 50 cm, and 40 cm.
A graph T2 versus l is plotted. 
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Seet Wan Ting (1181100261)
Seet Wan Ting (1181100261)
Hypothesis: Antibiotic can penicillin kills bacteria.
Steps:
1:Using sterile petri dishes and nutrient agar, set up two petri dishes A and B.
2:Then contaminate the nutrient agar by adding a little culture of Bacillus subtilis in each dish and swirl the dishes to spread out the culture solution evenly.
3:Place a penicillin tablet in the middle of dish A.
4:Tape the two dishes with sellotape. Invert the dishes and incubate the bacteria at room temperature for 2 days.
5:Observe the two dishes after 2 days.
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1181101768 (Loong Jiehyi)
1181101768 (Loong Jiehyi) 
Hypothesis:The greater the mass, the greater the inertia. 
Steps:
1. One end of jigsaw blade is clamped to the leg of the table using a G-shaped clamp. 
2.A 20g of plasticine ball is fixed at the free end of the blade. 
3.The free end of the blade is displaced horizontally and released so that it oscillates. The time for 10 complete oscillation is measured using stopwatch and this step is repeated 2 times.The average for 10 complete oscillation is calculated. Then the period of oscillation is determined. 
4.Steps 2 & 3 are repeated by replacing 20g of plasticine ball with masses of 40g,60g,80g,and 100g.
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Grace Goh Man Jing (1171103751
Grace Goh Man Jing (1171103751
Hypothesis: Vinegar will affect the fruits to last longer 

Steps: 1) Prepare the fruit you want to use, add vinegar into a pot and allow vinegar to come to a boil.
            2) Add salt ,chilli powder ,coarse brown sugar and continue to boil.
            3) Add dried fruit to mixture and allow to boil for few minutes until mixture thickens.Stir continuously to avoid burning or scorching.
            4)Remove from stove and allow to cool before bottling.
            5) Store in refrigerator. After 1 week , you can find that the fruits still not rancid and still can eat.
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TAN XIN YEE (1171103467)
TAN XIN YEE (1171103467)
Hypothesis : Pure iron rust faster than steel while stainless steel does not rust easily.

Steps: 
1.Three test tubes are half-filled with jelly solution and are labelled as A,B and C.

2. 1cm3 of potassium hexacyanoferrate  (III) solution is added to every test tube.
 
3. An iron nail, a steel  nail and a stainless steel nail are polished with sandpaper to remove any rust formed. Then nails are then placed in the three test tubes labelled A,B and C respectively

4. All three test tubes are allowed to stand for 5 days before they are examined. 

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Lau Xin Lin (1171103689)
Lau Xin Lin (1171103689)
Hypothesis: 
Slime is made from white craft glue and liquid starch.

Steps:
1.  Pour all of the the glue into the mixing bowl.

2. Pour all of the water to the mixing bowl with the glue.

3. Stir the glue and water together.

4. Add your food color (about 6 drops).

5. Now add the liquid starch and stir it in.

6. As you play with your slimy concoction, it will become more stretchy and easier to hold.

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Shaun Lee Xuan Feng (1181101402)
Shaun Lee Xuan Feng (1181101402)
Hypothesis : Detergent can remove scum with hard water.

1. Prepare 2 cloths with stain.
2. Fill 2 basin with 1000ml of hard water and 1000 ml of soft water respectively.
3. Place a cloth into each basin and leave it for a minute.
4. Pour 100ml of detergent and 100ml of soap into each basin respectively.
5. Stir the mixture well.
6. Leave it for 30 minutes.
7. Record the observations in a table.
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SAMIA NADEEM (1171103189)
SAMIA NADEEM (1171103189)
Hypothesis: Plants need light to grow

1. Fill 6 pots with soil.
2. Plant one bean seed in each pot. Make sure you gently cover each seed with a shallow layer of soil.
3. Place three of the pots outside in a spot that receives lots of sunshine. If the weather is too stormy or overcast, position the pots under a grow light.
4. Place the remaining three pots in a dark cupboard.
5. Spray all your planted seeds gently with a mister.
6. Now it's time to wait. To get the best results, you'll want to observe your seeds for at least three weeks. Make sure you use the mister every couple of days.
7. At the end of each week, take a close look at each of your pots.
8.Once a full three weeks have passed,did the absence of light make a difference?
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1171103274(NG JIA XUAN)
1171103274(NG JIA XUAN)
Hypothesis: If more water was be taken, more urine will be released.

STEP:
1. Choose two students and instruct them to empty their bladders before experiment start.
2. Give student A 400 ml and student B 800 ml  of mineral water to drink.
3. Start the stop watch immediately after consuming the water.
4. Instruct the students not to eat or perform vigorous physical activity.
5. Ask the students empty their bladder after half an hour.
6. Collect the urine in a large beaker.
7. Measured the urine by using measuring cylinder.
8.Record the data collected into a table.
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LM02 NG YIN YEN(1171103495)
LM02 NG YIN YEN(1171103495)
Hypothesis:The total momentum before collision is equal to the total momentum after collision,provided there are no external forces acting on the system.
Step:
1.The apparatus is set up as shown in the diagram.
2.Two trolleys A and B of equal mass are placed in contact with each other on an even and smooth surface.Two wooden blocks are placed on the same row at the end of each trolley respectively.
3.The vertical trigger on trolley B is given a light tap to release the spring-loaded piston which then pushes the trolleys apart.The trolleys collide with the wooden blocks.
4.The positions of the wooden blocks are adjusted so that both the trolleys collide with them at the same time.
5.The distances, Da and Db are measured and recorded.
6.The experiment is repeated with different masses of trolleys.
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Soh Chun Wei (1181100955)
Soh Chun Wei (1181100955)
Do an experiment to study 
Hypothesis : How many sugar percaentage in our unrine ?

1.Take 2 ml urine sample in a measuring cylinder from the urine sample bottle.
2.Take a test tube and pour the urine sample in it.
3.Take 5 ml Benedict’s reagent in a measuring cylinder.
4.Add Benedict’s reagent to the test tube that contains urine sample.
5.Using a test tube holder, hold the test tube firmly and heat it for 2 minutes on the burner.
6.Keep shaking the test tube while heating.
7.A yellow precipitate appears which indicates the presence of sugar in urine.
8.Depending upon the concentration of sugar in the urine, either green, yellow, or brick red precipitates are formed. 

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Tan Siong Kai 1171103861
Tan Siong Kai 1171103861
Hypothesis: Salt can increase the boiling point and  the freezing point of the water.

1.Prepare the apparatus needed such as ice, bunsen  burner, beaker , tripod stand ,thermometer, salt,resistance thermometer and water.
2.Half fill the beaker with water and boil it with bunsen burner on the tripod stand.Observe and record the maximum temperature.
3.Put some salt into a beaker which half fill with water and boil it.Record the maximum temperature it can acheive.
4.Pour the water into the beaker fill with ice .Observe and record the final temperature by thermometer.
5.Put some salt into the beaker fill with ice and water.Record the final temperature acheive by the resistance thermometer.


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HO WAN ER (1171103834)Hypothesis: Words are read faster than colors are named.
HO WAN ER (1171103834)Hypothesis: Words are read faster than colors are named.
Steps:

1. Prepare a list of words of colors and printed with different color. For examples, word "RED" but printed in yellow color.
2. Find two person of same age and same gender.
3. Give them the list of words.
4. Ask them to say the colors of the words instead of read the words as fast as they can.
5. Calculate the time they needed to say all the color correctly.
6. Determine whether they can say the color of words without hesitation.
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Annie Tan Sin Ling 1171103790 Hyphotesis : Presence of impurities will increase the boiling point of distilled water
Annie Tan Sin Ling 1171103790 Hyphotesis : Presence of impurities will increase the boiling point of distilled water
1. Pour 100cm³ of distilled water into a beaker
2. Heat up distilled water until it boils
3. Observe and record the boiling point by using thermometer
4. Repeat the experiment with mixture of distilled water and salt
5. You will observe that the boiling pointof mixture water and salt increase
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1171103531 Grace Ng Yee Lin
1171103531 Grace Ng Yee Lin
Hypothesis : Colour can help humans in memorizing process. 

(1) Prepare 4 copies of 50-70 words reading material with similar content but different colour of words
 Copy A and B : words in black colour
 Copy C and D : words in different colours 

(2) Find 4 peoples of the same age. 

(3) Let four of them to memorize the material in 15 minutes. 

(4) After 15 minutes, ask them to read out the content without looking at the material. 

(5) Determine who can remember more. 
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Lm01 Jane Lee Le Xuan 1171103547
Lm01 Jane Lee Le Xuan 1171103547
Hypothesis:
During the change of state of naphthalene from liquid to solid,there is no change in temperature.

1. The apparatus set up as shown in the diagram.
2. The naphthalene is heated until the temperature reaches 95°C.
3. The boiling tube is then removed from the water bath and the outer part of the tube is dried.
4. The temperature of the naphthalene is recorded every minutes until the temperature drops to about 60°C
5. A graph of temperature against time is drawn.
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LM01 TAN YING HUI
LM01 TAN YING HUI 
1171103826
Hypothesis : The potential difference across the terminals of dry cells decrease when the current supplied by the cells increase 
procedure:
1.A circuit as shown in the diagram above is set up. 
2.The switch is started. The rheostat is adjusted until the ammeter reading shows 0.2A. 
3.Step 2 is repeated with current values of 0.3A, 0.4A, and 0.5A. 
4.A graph of V against I is plotted. The slope of the graph is calculated and the V-crossing is extrapolated. 
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1171103778 Cristy Fo Hui Chi
1171103778 Cristy Fo Hui Chi 
Hypothesis: Gases expand when heated.
Steps :
Use a pair of scissors to make a hole in the top of the bottle lid, big enough for the drinking straw to fit through.
Fill the bottle halfway with cold water.
Add a few drops of food colouring and mix.
Screw on the bottle lid and insert the straw through it into the water, making sure that the straw does not touch the base of the bottle.
Seal around the hole in the lid using play dough, thereby fixing the straw in place. The seal must be completely airtight.

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LM01
LM01 
1171103443
Leom Teng Xiang
Hypothesis: The angle of reflection is equal to the angle of incidence.
Steps:
1. A ripple tank is set up.
2. A plane reflector is place in the middle of the tank so that it is parallel with the incident wavefronts. The reflected waves are observed through the stroboscope. 
3. The reflector is then adjusted so that the incident waves approach the reflector at incident angle of 20°, 40°, 60° and 80°. For each situation, the reflected angle is observed.
4. The wavelegth of incident length and reflected waves are observed and compared.
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Inclined Planes
Inclined Planes
Hypothesis: The larger the angle of incline, the higher the velocity before reaching the end of the runway.
Aim: To study the relationship between the 
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1171103555 (Kuan Kah Ming)
1171103555 (Kuan Kah Ming)
Hypothesis: When the length of the pendulum increase, the oscillation time increase
Experiment procedure:
1. Two thread are prepare with length of 5cm and 10cm
2. A pendulum is attach to the 5cm thread on retort stand.
3. The pendulum is pull to the height of 50cm measured from the meter rule behind the retort stand.
5. The pendulum usb released and the time of oscillation is recorded.
6. The result are recorded.
7. Tabulate the data.
8. Step 1 until 7 is repeated with the thread of 10cm

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Inclined Planet
Inclined Planet 
Hypothesis : The larger the angle of incline , the higher the velocity just before reaching the end of the runway
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LM01 Ong Jie Ying (1171103488)
LM01 Ong Jie Ying (1171103488)
Hypothesis: The air from different environments does not contain the same amount of solid pollutants.
 
Steps : 
1) Prepare 5 slides and label A, B, C, D and E.
2) A piece of cellophane tape with adhesive surface facing upward is stuck on each side. 
3) Place the slide at five spots in five different types of environments.
   a) Slide A - place in a closed Petri dish 
   b) Slide B - place in an open field
   c) Slide C - place in a classroom 
   d) Slide D - place in an air-conditioned  room 
   e) Slide E - attach it to a lamp post in a car park 
4) All slides are left aside for a week. 
5) All slide are collected after one week and each viewed under a microscope using a low power.
6) Record the observation in a table.
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LM02 Chua Kai Ying (1171103782)
LM02 Chua Kai Ying (1171103782)
Hypothesis: The longer the length of a simple pendulum, the longer the period of oscillation.

Steps:
1) The thread is tied to the pendulum bob. The other end of the thread is tied around the arm of the retort stand so that it can swing freely. The length of the pendulum is measured to 80cm.
2) With the thread taut and the bob at the rest, the bob is lifted at a small amplitude(not more than 10°)Ensure the pendulum swings in a single plane.
3) The time for ten complete oscillations of the pendulum is measured using the stopwatch.
4) Step 3 is repeated and the average of both readings are calculated.
5) The period of oscillation, T is calculated using the average reading divided by the number of oscillations.
6) T² is calculated by squaring the value of T.
7) Step 1 to 6 are repeated using the length of 70cm, 60cm, 50cm and 40cm.
8) A graph is plotted.
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LM01 Lim Hui Ying
LM01 Lim Hui Ying
(1171103523)
Hypothesis : The longer the wire, the higher the resistance.
1.A eureka wire is connected in the circuit as shown in the diagram.
2.The length of the wire between X and Y is adjusted to 20 cm.
3.The switch is closed and the rheostat is adjusted until the ammeter reading , I is 0.5A.The voltmeter reading is recorded.
4.Step 3 is repeated for wire lengths 40cm,60cm,80cm and 100cm.
5.The resistant ,R =V/I is calculated for each length.
6.A graph of R against I is plotted.
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LM 01 Elaine Khoo Sue Mae
LM 01 Elaine Khoo Sue Mae
(1171103416)
Hypothesis: The angle of reflection is equal to the angle of incidence
Steps:
1) A ripple tank is set up.
2) A plane reflector is placed in the middle of the tank so that it is parallel witg the incident wavefronts.The reflected waves are observed through a stroboscope.
3)The reflector is then adjusted so that the incident was approached the reflector at incident angles of 20°,40°,60°.
4)The wavelength of the incident and reflected waves are observed as compared.

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LM01
LM01
Ong Jing Song 1171103047
Hypothesis : Using artificial light will affect the growth on plant.

Put potting soil into the 2 plant pots, and bury a bean seed under half an inch of soil in each pot.
Mist the soil gently so that the beans have water.
Place 1 plant in a box.
Put the light bulb in the desk lamp.
Place the lamp over the box so that the light does not escape from the box. Make sure that it is not touching any paper!
Turn the light on every morning and turn  off every evening.
Place your second bean seed in a sunny window. Make sure that the soil stays damp, but not too wet.
After a week, you will likely see a sprout coming out of the soil. Wait for another week or more, then turn on the light in the room and take a photo of each bean plant. Label the photos with the type of light the plant received. 
Wait for two weeks or more, then take a photo of each plant and observe what has happen to each plant
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LM 01 Russel Lim Feng Han (1171103424)
LM 01 Russel Lim Feng Han (1171103424)
Hypothesis: Aerobic exercise are healthy way to help loss weight
Step:
1.	Randomly select 100 students from the collage which weight between 58kg to 68 kg
2.	Evenly divide 100 of students into two group, experimental group and control group
3.	Experimental Group will joining an aerobic program for a month and control group will be taking weight loss supplement for a month
4.	After one month , carry out a test which include weight ,BMI ,body fat content test.
5.	The result show both group have significantly loss weight but the control group may facing side effect for using fat loss supplement, so the result show aerobic exercise are more healthy in term to loss weight

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Yap Jin Hong - 1181100731
Yap Jin Hong - 1181100731
(T1A)
Hypothesis:The rate of transpiration in a leafy shoot is higher than the rate of transpiration in a shoot without leaves.

1. Cut a balsam shoot under water to prevent air from entering the xylem.

2. Fill potometer with water,make sure no air bubble inside and insert balsam shoot through under water.

3. Open tap of water reservoir to fill the graduated capillary tube with water.

4. The air bubbles move from B to A when transpiration occur.

5. The experiment can repeated a few times to find the average reading for rate of transpiration
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Nur Sarah Najihah Binti Nor Alahyadi,T2A (1181101195)
Nur Sarah Najihah Binti Nor Alahyadi,T2A (1181101195)
Hypothesis: Volcanic clay mask actually works in tightening skin pores.

1)      Randomly select a large number of people from the whole population who has big pores
2)      Randomly divide them into 2 groups; an experimental group and a control group.
3)      Treat the two groups exactly the same (giving skin treatment using masks) except that I give the experimental group treatments with volcanic clay mask and I give the control group a placebo, that is, regular clay masks that do not have anything beneficial to pores and skin.
4)      Conduct the study double-blind. That is, I make sure that neither the dermatologists nor the subjects know which of the subjects is getting the volcanic clay mask and which is getting the placebo.
5)      The experiment was handled for 2 weeks and the subjects were not allowed to use any other skincare products to actually see if the volcanic clay mask works.
6)      After two weeks, the progress of subjects’ skins were examined. If the experimental group skins’ pores are tighten and the skins’ condition were better than the controlled group, it can be concluded that volcanic clay mask actually helps in tightening skin pores.

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Angelina Chow (1181100481)
Angelina Chow (1181100481)
Hypothesis : Plants grow healthily in a complete Knop's solution.
Steps :
1) Randomly select 40 maize seedlings regardless of seedlings' size and species and divide them into Group A and Group B.
2) Place the maize seedlings into glass jars which are connected to an air pump to provide aeration to the roots so that respiration can take place.
3) Fill the jars of Group A with Knop's solution without magnesium and Group B with complete Knop's solution (Containing all the nutrients needed by plants).
4) Wrap the glass jars with black paper to prevent the growth of green algae which will deplete the nutrient content and affect the experiment.
5) Replace both solutions every week to replenish the nutrients absorbed by the maize seedlings.
6) Treat both groups exactly the same in terms of the volume of solutions given, place of experiment and etc except for the type of Knop's solutions
7) Record all observations on the growth of each plants in both groups after one month.
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LM01
 LM01 
1171103400
Ng Qing Ya
Hypothesis: While doing revision listening to music will affect learning progress.

1. Randomly select 50 students from one class.

2. Randomly divide them into two groups: one group leave them studying while listening to music, the next group just studying in a quiet place.

3. After that, let all of them taking a quiz.

4. Result show that the group of students who study in a quite place were getting a better exam grade than students study while listening to music.
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LM01 1171103153 Tham Jie Shi
LM01 1171103153 Tham Jie Shi
Hypothesis:Lemon is acidic enough to carry an electric charge and act as a battery
Steps:
1)Prepare two lemons,a sharp knife,three 4'' pieces of copper wire,six alligator clips,1.5V mini light bulb and holder,Galvanized nail (nail covered in zinc),and penny or thick copper wire.
2)Carefully use a sharp knife to cut two slits in each lemon about 1/2'' deep. Make sure that the inside of the lemons are exposed. If the skin is thick, make the insertion deeper until the fruit is exposed.
3)Insert the copper wire or penny into one slit and the nail into the other slit for each lemon.
4)Attach an alligator clip to each end of each piece of wire.
5)Attach one end of the first wire to the nail in the first lemon. Attach the other end of this wire to the light bulb.
6)Connect a second wire from the copper wire in the second lemon to the light bulb.
7)Lastly, using the third wire, connect the nail in the second lemon to the copper wire in the first lemon.
8)Observe what happens to the light bulb.
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Lim Yu Jie(1181101201)
Lim Yu Jie(1181101201)
Hypothesis : The greater the heat supplied to water of fixed mass, the greater the rise in temperature of water.
 
Steps:
1) Prepare 0.5l of water in a kettle and put it on induction cooker.

2) Measure the initial temperature of water by using thermometer.

3) Then, press the start button and Increase the temperature of the cooker to 50 0C to boil the water.

4) After 5 minutes, stop the cooker and quickly measure the final temperature of water. Then calculate the rise in temperature of water.

5) Repeat the experiment by increasing the temperature level of cooker to 60 0C, 70 0C and 80 0C with constant volume of water and time taken.
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Bok Hui Ling ( 1181100160 )
Bok Hui Ling ( 1181100160 )
Hypothesis: Music would affect dog’s behavior

Steps:
1)     Randomly selected 40 dogs and divided them into two groups.
2)     Experiment are carried out in same location, with the same lighting, furniture, and conditions every time.
3)     A group of dogs are tested with music.
4)     The control group would be used to set a baseline behavior, and how dogs behaved without music.
5)     The other group could then be observed and the differences in group’s behavior could be analysed.
6)     It was found that dogs do show more relaxed and calm behaviors when specific type of music plays.



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LM01 Er Pei Ling (1171103502)
LM01 Er Pei Ling (1171103502)
Hypothesis: Impurities would effect the boiling point of water.
Steps:
1) Prepare the two beakers which contain the distilled water and labelled them as Beaker A and Beaker B.
2) Add common salt into the Beaker A, while the Beaker B remains unchanged.
3）Heat the Beaker A and Beaker B until them boil.
4) Record the boiling point of the Beaker A which contains the mixture of distilled water and the common salt, and also record the boiling point of the Beaker B which is just containing the distilled water.

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Pendy Tok (1181101110)
Pendy Tok (1181101110)
Hypothesis: Living environment affects the rate of survival in nature.

Steps:
1. Randomly select 40 bunnies and divide them into 2 groups which are Group A and Group B regardless of colour and variety.
2. Both groups are treated exactly alike, except the living environment. Group A lives under humans' care while Group B lives in wildlife sanctuary. 
3. Both groups' conditions are under control by injecting bioelectronic chips into the bunnies to ensure the survival of bunnies before the experiment starts.
4. After half a year of preparation, all the bunnies have grown up. Both groups are released to the wild.
5. Observations on the survival of rabbits in long duration are recorded.
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LM01 Low Siew Hui 1171103394
LM01 Low Siew Hui 1171103394 
Hypothesis:The battery would effect the function to light bulb
Steps:
1)Prepare two battery, battery A have function, battery B have no function 
2)Put each battery in each light bulb.
3)Open the suis
4)Observe the result after the experience and record it. 
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LM01 Liang Hui Li (1171103330
LM01 Liang Hui Li (1171103330
Hypothesis:The amount of water given would effect the growth of plant.
 Steps:
 1)Prepare two flower pot , each flower pot contains the same amount and type of soil.
2)Put 10 bean seeds into each flower pot.
3)Place both of the flower pot in the same window.
4)Flower pot A would be watered everyday in the morning while flower pot B would not get watered.
5)Observe the result after one month.
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LM01 Gan Qian Han (117110
 LM01 Gan Qian Han (1171103276)
LM01 Gan Qian Han (1171103276)
Do a experiment for study
1) a good student come in the last class
2) everyone in the last class was lazy and do their own things, didn’t want to listen to the teacher 
3) the good student will felt uncomfortable for being good and start to being bad to get in that last class 
4) at last, the good student becomes a bad student just like other 
This experiment show that a person would felt uncomfortable when other people act not like them. He will try to act like them although he thinks that he and the other are doing the wrong things. But, he want to be same with other, so he also done the wrong things 
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LM01 Gan Qian Han (1171103286）
LM01 Gan Qian Han (1171103286）
Do a experiment for study
Hypothesis: A reaction of good student after go to the last class
Steps:
1) a good student come in the last class
2) everyone in the last class was lazy and do their own things, didn’t want to listen to the teacher 
3) the good student will felt uncomfortable for being good and start to being bad to get in that last class 
4) at last, the good student becomes a bad student just like other 
This experiment show that a person would felt uncomfortable when other people act not like them. He will try to act like them although he thinks that he and the other are doing the wrong things. But, he want to be same with other, so he also done the wrong things 
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]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 16:49:01 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274645563</guid>
      </item>
      <item>
         <title>1171103833            Loo Wei Jun</title>
         <author>loojun0207</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274656037</link>
         <description><![CDATA[<div>Hypothesis:Buying things or experience, which give us more happiness?<br><br>Procedure:<br> 1.Recruiting 10 peoples to participating in this experiment. <br> 2. Separate these 10 peoples into two group, Group A and Group B which is 5 person on each group.<br> 3. Both group are given RM 10,000 , they have to spend in a week and the balance have to return back if they don't spend it all to make sure all the participants will use all of the cash.<br> 4.Group A only can spend it on vacation to other country or state,learning new skills and making the deal on other experience stuffs.<br> 5.Group B only can use the cash to buy all the things except the experience stuff.<br>6.After a week,the balance will be taken if they have and they will be ask to rate their happiness in that week with the marks from 0 to 100.<br>7.Record all the marks of participants and calculate the average happiness of both group.<br>8.Interview their satisfaction of life in that week and how happy there are.<br>9.Analyze and conclude is thing bring more happiness or experience do. </div><div><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-22 17:18:03 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274656037</guid>
      </item>
      <item>
         <title>Pook Wei Jie 1181101100</title>
         <author>xavierpook</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274758425</link>
         <description><![CDATA[<div>Hypothesis<br>The angle of reflection is equal to the angle of incidence.<br><br>Steps<br>1.A ripple tank is set up<br><br>2.A plane reflector is place in middle of the tank so that it is parallel with the incident wavesfront. The reflected waves are observed through a stroboscope.<br><br>3.The reflector is then adjusted so that the incident waves approach the reflector of incident angles of 20, 40, 60 and 80. For each situation, the reflected angle is observe.<br><br>4.The wave length of the incident an reflected waves are observed and compared.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 02:51:24 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274758425</guid>
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      <item>
         <title>1171103385 Simon Ngu Leong Onn</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274760519</link>
         <description><![CDATA[<div>Hypothesis:<br>Height will affect on how long a student can hold his/her breath<br><br>Procedure:<br>1. We divided the students into two pairs.<br>2.&nbsp; Each person had two chances to hold their breath for as long as they could.<br>3. The other person timed how long they held it in seconds.<br>4. The student held his/her nose closed.<br>5. We use the longest attempt.<br>6. Then we had the students line up from shortest to tallest and divided them into two groups.<br>7. One group was the shorter students and the other group was the taller students.<br>8. We wrote down how long each person in the shorter group held his/her breath.<br>9. We also wrote down how long each person in the taller group held his/her breath.<br>10. We calculated the mean length of time for each group.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 03:06:01 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274760519</guid>
      </item>
      <item>
         <title>1171103550 Kiew Jia Chee</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274777585</link>
         <description><![CDATA[<div>Hypothesis:<strong><br>Testing the effectiveness of bacteria killing agents<br></strong><br><br>Prosedure:</div><ol><li>Prepared petri dishes should be refrigerated until used and always stored upside down (i.e media in upper dish, cover on bottom). This keeps condensation which forms in the lid from dropping onto and disrupting the bacteria growing surface.</li><li>Prepare sterilized water by boiling water and letting cool to room temperature.</li><li>When ready to use, let petri dishes come to room temperature before taking samples (about one hour).</li><li>Prepare antiseptic disks by using a hole punch to create paper disks out of a piece of filter paper or paper towel. Soak one disk in each antibacterial agent to be tested. Set aside until step 6.</li><li>Collect bacteria from each location using one swab for each new spot.</li><li>Fill a small test tube partly full of sterilized water. Dip bacteria laden swab into water. This will transfer some of the bacteria you collected into the water. Now, inoculate a petri dish by pouring the water into the dish so the entire surface is covered. Pour out excess water. Repeat for each bacteria sample using fresh water and clean test tube each time.</li><li>Place a pretreated antiseptic disk in each inoculated petri dish.</li><li>Replace cover on dish, tape closed, store upside down. Be sure to label each petri dish with a name or number.</li><li>Let grow in undisturbed warm location, ideally in an environment around 100° F (37° C) - not in sunlight or on a heating register.</li><li>You should see growth within a couple of days. You should also see a "halo" around each disk indicating a no growth zone. Measure and compare the size of the kill zone to determine effectiveness of each antibacterial agent.</li><li>Before disposing of dishes in the trash the bacteria should be destroyed. Pour a small amount of household bleach over the colonies while holding dish over sink. Caution - do not allow bleach to touch your skin, eyes or clothes. It will burn!</li></ol>]]></description>
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         <pubDate>2018-08-23 05:26:48 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274777585</guid>
      </item>
      <item>
         <title>1181101661 Yow Yuen Li </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274779587</link>
         <description><![CDATA[<div>Hypothesis: yawns are contagious </div><div><br></div><div>Procedure</div><ol><li>Randomly select 25 students from MMU.</li><li>The recruiter must choose a student and speak to the student one-on-one.</li><li>The recruiter must then yawn intentionally during the session.</li><li>After that, the recruiter must leave the student by himself/herself in a small room for a fixed amount of time.</li><li>Observe and record the observation.</li><li>Repeat step 2-5 with the other 24 students.</li></ol><div><br></div>]]></description>
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         <pubDate>2018-08-23 05:47:00 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274779587</guid>
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      <item>
         <title>1171103532 (Lm01) Lau Phei Sin</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274779742</link>
         <description><![CDATA[<div>Hypothesis: The growth rate of seedling is lower in nitrogen deficiencies of culture solution.<br><br>Procedure:<br>1. Two glass jars labelled as A and B are prepared.<br>2. In glass jar A, knop’s culture solution is prepared inside.<br>3. In glass jar B, a culture solution deficient in nitrogen is prepared.&nbsp;<br>4. Each jar is wrapped with black paper to prevent light from penetrating into culture solution which will cause the growth of green algae.<br>5. Two maize seedlings of the same height are chosen and put into each jar.<br>6. All set of apparatus are exposed to light so the seedling are able to carry out photosynthesis.<br>7. After one week, seedling in jar A and B is taken out and the height of each seedling is measured by using a ruler.</div><div><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 05:48:59 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274779742</guid>
      </item>
      <item>
         <title>1171103520 Tan Cheen Kwang (T5)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274780255</link>
         <description><![CDATA[<div>Hypothesis &nbsp; :&nbsp; | The larger the total surface area per volume ratio / the smaller the size of cube, the faster the rate of diffusion.<br><br>Procedure <br><br>1. Potato tissues are cut into 1 cm<sup>3</sup>, 8 cm<sup>3</sup>, 27 cm<sup>3</sup> and 64 cm<sup>3</sup>cubes. <br>2. Then the cubes are immersed into a basin containing 100ml of colored water. &nbsp;<br>&nbsp;3. All the cubes are left for 20 minutes. <br>&nbsp;4.After 20 minutes, the outer surface of the cubes are dried with filter paper and cut into two halves. &nbsp;<br>&nbsp;5. The percentage of colored area in each cube is estimated by using a girded transparency. <br>&nbsp; 6.The rate of diffusion of each cube is calculated. &nbsp;<br>&nbsp; 7. The results are recorded in the table.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 05:54:53 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274780255</guid>
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      <item>
         <title>1171103650 Weejay</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274782733</link>
         <description><![CDATA[<div>Hypothesis: Does the water temperature affect the effectiveness of the detergent?<br><br>Procedure:&nbsp;<br>1) Prepare two basin&nbsp;<br>2) Insert 1L of warm water with 100g of detergent in one basin and 1L of cold water with 100g of detergent in the another basin.<br>3) Prepare two pieces of clothing with the same amount of blood stain on the shirt.<br>4) Insert the shirts into the basin and start washing for 10 minutes.<br>5) Record the amount of stain that remain on the shirt.<br>6) The results are recorded in a table</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 06:25:20 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274782733</guid>
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      <item>
         <title>1171103661 Eugene Lim Ken Wing</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274783018</link>
         <description><![CDATA[<div>Hypothesis: Sound waves will refract when passing through different densities&nbsp;<br><br>Procedure:&nbsp;<br>1) A loudspeaker connected to a generator anda microphone is connected to a cathode ray oscilloscope, are set up at suitable distances. The pattern of the wave on the cathode ray oscilloscope screen is observed.<br>2) The balloon filled with carbon dioxide is placed between the speaker and the microphone. The position of the balloon is adjusted until the shape of the wave shown on the cathode ray oscilloscope screen has the largest amplitude. The amplitude of the waves is compared to the waves observed in step 1.<br>3) Step 2 is repeated with the balloon filled with hellium.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 06:26:58 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274783018</guid>
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      <item>
         <title>1171103928 Au Xian Yang</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274786685</link>
         <description><![CDATA[<div><strong>Hypothesis : </strong>Plant cell has a fixed shape but not animal cell<br><strong>Procedure</strong></div><div>1.A scale leaf from an onion bulb are obtained</div><div>2. By using a forcep .the inner surface of onion scale leaf is peeled off&nbsp;</div><div>3. One drop of distilled water was placed in the middle of glass slide</div><div>4.With a needle ,the cover slip is dropped slowly at 45 to the glass slide so that no air bubble</div><div>being trapped</div><div>5.A drop of iodine solution was dropped at one side of the cover slip</div><div>6.A filter paper was placed at the opposite end of the opposite end of the cover slip to allow the</div><div>spreading of solution absorbing excess solution</div><div>7.The slide is observed under a light microscope using a low power objective lens then high power</div><div>objective lens</div><div>8.The plant structure is then drawn and recorded by using a microscope</div><div>9.This experiment is repeated using a cheek cell</div><div>10.The mouth is rinsed before starting with experiment</div><div>11.By using a toothpick, the inner mouth were scrapped to get some cheek cell</div><div>12.Then the cheek cell was placed onto a glass side</div><div>13.A drop of methylene blue solution was added</div><div>14.Slowly the cover slips was dropped, then the filter paper were placed at one end of the cover</div><div>slip for irrigation</div><div>15.This slide is then observe and the structure was recorded by using a microscope</div><div>16.All the results are tabulated in a table.</div><div><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 06:51:51 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274786685</guid>
      </item>
      <item>
         <title>1181101343 Loh Wan Jean </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274792571</link>
         <description><![CDATA[<div>Hypothesis:<br>Students who get enough sleep can focus in class rather than those who don't.<br>Procedure:<br>1. Select 30 students in MMU.<br>2. Students are later divided into 2 groups which are group A and B.<br>3. Group A students are required to have 8 hours of sleep.<br>4. Group B students can only sleep for 5 hours.<br>5. Observe both group of students during the class the second day.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 07:33:10 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274792571</guid>
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      <item>
         <title>1181101788 Goh Shu Ting</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274797976</link>
         <description><![CDATA[<div>Hypothesis:&nbsp;<br>The bigger the weight, the longer the spring extension&nbsp;<br>Procedure:<br><br>1. The apparatus is setup. <br>2. The length of the spring without any weights, l0 is measured using the metre rule with the pin as reference.&nbsp;<br>3. A 50 g weight is hung from the bottom of the spring. The new length of the spring, l is measured. The spring extension is l – l0.<br>4. Step 4 is repeated with weights 100 g, 150 g, 200 g, and 250 g.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 08:15:55 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274797976</guid>
      </item>
      <item>
         <title>1181101191 Muhammad Irfan Syahmi</title>
         <author>irfansyahmi27</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274801153</link>
         <description><![CDATA[<div><strong>Hypothesis:<br></strong>The longer the wire, the more resistance it will be.<br><strong>Procedure:<br></strong>1.Set up a circuit.<br>2.Cut three wires with different lenghts. 5cm,10cm and 15cm.<br>3.Connect the wire with 5cm long into the circuit.<br>4.Observe the brightness of the bulb.<br>5.Repeat steps 2-4 with wires lenght 10cm and 15cm.<br>6.Record the observation.<br><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 08:39:27 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274801153</guid>
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      <item>
         <title>1181101168 (JEFFRY JOAQUIM IMAN BIN ALAMSAH) ~ T2</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274801815</link>
         <description><![CDATA[<div>Hypothesis :<br>The angle of&nbsp; reflection&nbsp; is equal to the angle of incidence.<br>Procedure :<br>1. A ripple tank is set up.<br>2. A plane reflector is placed in the middle of the tank so it is parallel with the incident wavefronts.<br>3. The reflected waves are observed through a strobosope.<br>4. The reflector adjusted so that incidence waves approach the reflector at incident angles of 20<strong>°, 40°, 60°</strong> , 80<strong>°</strong>.&nbsp;<br>5. Record the reflected angle for each situation.<br>6. The wavelength of the incident and reflected waves are observed and compared.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 08:46:09 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274801815</guid>
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      <item>
         <title>1181101813 Lim Chin Hong</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274802986</link>
         <description><![CDATA[<div>Hypothesis: The angle of reflection is equal to the angle of incidence and angle of reflection.<br>Procedure:<br>1.A ripple tank is set up.<br>2.A plane reflector is placed in the middle of the tank so that it is parallel with the incident wave fronts .The reflected  waves are observed through a stroboscope.<br>3.The reflector is then adjusted so that the incident angles of 20 degrees , 40 degrees , 60 degrees and 80 degrees . For each situation , the reflected angle is observed.<br>4.The wavelength of the incident and reflected waves are observed and compared.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 08:54:05 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274802986</guid>
      </item>
      <item>
         <title>1181101076 Goh Yu Sheng </title>
         <author>1181101076</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274803712</link>
         <description><![CDATA[<div>Hypothesis: The larger the volume of water consumed, the larger the volume of urine execreted .<br><br>Procedure:<br>1.The night before the experiment, the participating students are not to consume any food or drinks after 10.00p.m.<br>2. Students are divided into four groups according to their average weight.<br>3. On the day of the experiment, each student drinks 500m/ of distilled water in the morning one hour before the experiment.&nbsp;<br>4. Each students empties his or her urinary bladder and collects the urine samples at the beginning of the laboratory period.<br>5.Measuring cylinders are used to measure the volumes of these samples. These volumes are taken as the volumes of urine excreted at the beginning of the experiment(0 minute).<br>6.Immediately after that, each group is assigned to drink various amounts of distilled water. &nbsp;<br>Group 1: 250ml of distilled water&nbsp;<br>Group 2: 500ml of distilled water&nbsp;<br>Group 3: 750ml of distilled water&nbsp;<br>Group 4: 1000ml of distilled water&nbsp;<br><br>7. Urine samples from each student are taken at the 30th , 60th and 90th minute intervals after consuming the distilled water. Measuring cylinders are used to measure the volumes of urine collected.<br>8. After each sampling, the urine' samples are discarded into the toilet.&nbsp;<br>9. The results for each student are recorded accordingly and the average reading from each group is taken. &nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 08:59:03 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274803712</guid>
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      <item>
         <title>1181101083 Nicky Chua Wai Kit</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274806330</link>
         <description><![CDATA[<div>Hypothesis: The higher the current flowing through a conductor, the higher the potential difference<br><br>Procedure:<br>1. A circuit as shown in the diagram is set up.<br>2.A eureka wire of 10.0 cm length is connected across terminals X and Y.<br>3.The switch is pressed and the rheostat is adjusted until the ammeter reading, <em>I, is 0.2A. The voltage across the eureka wire, V is measured using voltmeter.<br>4.The rheostat is adjusted to increase the value of current I and the corresponding voltmeter reading, V is recorded.<br>5.The values of I and V are tabulated and a graph of V against I is plotted.<br>6.The experiment is repeated with ammeter readings 0.3A, 0.4A, and 0.5A</em></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 09:19:33 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274806330</guid>
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      <item>
         <title>1181101175 -Mohd Norman Bakri</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274806680</link>
         <description><![CDATA[<div>&nbsp;Hyphothesis: The higher the depth of water, the higher the pressure. &nbsp;<br><br>Procedure:</div><ol><li>Punch holes in side of the container at one inch intervals.</li><li>Fill the container with water.</li><li>Measure the distance from the container that the water squirts out of each hole.</li><li>Plot a graph of depth (distance of hole from top of water level) versus distance water squirts from can.&nbsp;</li></ol>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/306360346/51bf56fcbe70c42bdccffb64fdf301ae/fluids_pressure_depth_relationship.gif" />
         <pubDate>2018-08-23 09:22:49 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274806680</guid>
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      <item>
         <title>1181101152 Mohammad Hadiff        </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274808776</link>
         <description><![CDATA[<div>Hypothesis:<br>A non smoker will have better physical fitness than a smoker.<br><br>Procedure:<br>1)Gather two people which is a smoker and a non smoker people.<br> 2)Let them jog around a 400 metre field for five laps.<br> 3)Then,after they finished,count their pulse in one minute.<br> 4)Lastly observe the pulse of both people and record in a table.<br> </div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 09:43:12 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274808776</guid>
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      <item>
         <title></title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274822717</link>
         <description><![CDATA[<div><strong>1171103903<br>Christina Law Jing Yi</strong><br>Hypothesis :The Vitamin C of lemon juices is the highest&nbsp;<br>1.Prepare an iodine solution by mixing a bottle of tincture of iodine in about 500 ml of water. Place equal amounts of the iodine solution in plastic cups.&nbsp;</div><div>2.Using a spoon, crush a vitamin C tablet and then dissolve it in water (this will be the control).</div><div>Place equal amounts of the various fruit juices in plastic cups.&nbsp;</div><div>3.Using the medicine dropper first add the vitamin C control solution drop by drop to a cup of iodine and record the results.Do not to dip the medicine dropper into the iodine.</div><div>4.Next, add a juice using a different medicine dropper, drop by drop, to a fresh cup of iodine. Swirl the cup after each drop is added.</div><div>5.Count thenumber of drops you adduntil a color change is seen.&nbsp;</div><div>6.Record the number of drops needed to change the iodine from its brownish-red color to a clear or almost clear color.</div><div>7.Repeat the procedure usingeach of the juices.</div><div>8.Arrange data in numerical order, from the lowest to highest vitamin C contentina table similar to the one shown below.&nbsp;</div><div>9.Test each juice three times and calculate the average number of drops required to change the color.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 11:41:34 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274822717</guid>
      </item>
      <item>
         <title>1181101468</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274823617</link>
         <description><![CDATA[<div>Lau Qi Wei<br>Hypothesis:<br>Does the color of drinks affect human attention to drink it.<br><br>Procedure:<br>1. Prepare various of different colour of drink .<br>2. Get 10 or more participants.<br>3. Ask them to choose the drink.<br>4. Record the colour of every participants choose.<br>5. Compared the result.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 11:48:11 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274823617</guid>
      </item>
      <item>
         <title>Lim Yu Jie(1181101201)</title>
         <author>1181101201</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274824860</link>
         <description><![CDATA[<div><strong><em>Hypothesis :</em></strong> The greater the heat supplied to water of fixed mass, the greater the rise in temperature of water. <strong><em>Steps:</em></strong><br>1) Prepare 0.5l of water in a kettle and put it on induction cooker.<br><br>2) Measure the initial temperature of water by using thermometer.<br><br>3) Then, press the start button and Increase the temperature of the cooker to 50°C to boil the water.<br><br>4) After 5 minutes, stop the cooker and quickly measure the final temperature of water. Then calculate the rise in temperature of water.<br><br>5) Repeat the experiment by increasing the temperature level of cooker to 60°C, 70°C and 80°C with constant volume of water and time taken.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 11:55:25 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274824860</guid>
      </item>
      <item>
         <title>1171103744</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274828481</link>
         <description><![CDATA[<div>Ng Jason<br>Hypothesis:<br>A non alcohol drinker have better physical fitness than a drinker.<br><br>Procedure:<br>1) Find two people which is a drinker and a non drinker.<br>2) Let them jog for a 5km long distance run.<br>3) Then,after they finished, compare the time that they finish.<br>4)Last, observe the time taken for the drinker and non drinker and record in a table.<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 12:17:03 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274828481</guid>
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      <item>
         <title>1181100735  Woon Huai Chang</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274829285</link>
         <description><![CDATA[<div>Hypothesis:Air quality in my housing area is better than industrial area.<br><br>Procedure:<br>&nbsp;</div><ol><li>Coat the top of the white or clear plastic with petroleum jelly.</li><li>Secure the plastic to a wood block, brick, or other weighted object using duct tape.</li><li>Identify an outdoor location that is mostly open with decent air circulation and put a same set at industrial area.</li><li>&nbsp;Let the plastic/block sit for at least 24 hours.</li><li>Collect the plastic/block and bring it inside.</li><li>&nbsp;Examine the top of the plastic for any particles collected.&nbsp;</li><li>Compare them.</li></ol>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 12:21:41 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274829285</guid>
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      <item>
         <title>1171103821 LM01 Lim Hui Thing</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274830807</link>
         <description><![CDATA[<div>Hypothesis:&nbsp;</div><h1>Does acid rain effect on Plant Growth.&nbsp;</h1><div><br>Procedure:&nbsp;<br><br></div><ol><li>Fill each pot with potting soil. Place several seeds in soil – reading the instructions for planting each.</li><li>With a permanent marker label one pot ‘Acid rain’ and the other pot ‘Normal’.</li><li>Water both pots and place them under a direct source of light.</li><li>Repeat watering every day or every other day (depending on seed type) until each pot has a sprout with leaves.&nbsp;</li><li>Measure the height of your plants and record this data as Day 1.&nbsp;</li><li>Fill both spray bottles with water. Select one spray bottle and add lemon juice at a quantity equal to 5 drops of lemon juice per one liter of water.&nbsp;</li><li>From this point forward, water each plant as usual and then spray each plant with the acid mix or normal water as labeled. (Be sure to water the plant first and then spray the acid so as not to wash the acid off of the plant.)Follow this by measuring the plant every day.</li><li>At the end of 14 days you should have sprayed the plants and measured their height every day.</li></ol>]]></description>
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         <pubDate>2018-08-23 12:29:17 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274830807</guid>
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      <item>
         <title>1171103091 Chi Chyun Horng</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274842833</link>
         <description><![CDATA[<div>Hypothesis:<br>Black colour absorb more heat than other colours.<br><br>Procedure:<br><br>1.Prepare 3 water glasses fill with water&nbsp; and prepare black , blue and red construction paper.<br>2.Wrap the water glasses with each different colour&nbsp; of construction paper.<br>3.Leave the water glasses at outside about 2 to 3 hours.<br>4.Using temperature meter to measure the temperature of the water.<br>5.Compared the results.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 13:13:47 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274842833</guid>
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      <item>
         <title>1181101663 (Pravin Morgan)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274850384</link>
         <description><![CDATA[<div>Hypothesis:<br>The larger the mass, the bigger the inertia.<br><br>Procedure:<br>1. The inertia balance is set up by clamping it onto one end of the table as shown in the figure above.<br>2. One mass is placed into the inertia balance. The inertia balance is displaced to one side so that it oscillates in a horizontal plane.<br>3. The time for 10 complete oscillations is measured using a stopwatch. This step is repeated. The average of 10 oscillations is calculated. Then, the period of oscillation is determined.<br>4. Steps 2 and 3 are repeated using two and three masses on the inertia balance.<br>5. A graph of T2 versus number of masses, n is drawn.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 13:35:24 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274850384</guid>
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      <item>
         <title>LM01 1171103440 CHONG XIN EE</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274859289</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 13:58:36 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274859289</guid>
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      <item>
         <title>LM01 1171103440 CHONG XIN EE</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274859300</link>
         <description><![CDATA[<div>Hypothesis:A rough surface generates more frictional force than a smooth surface<br><br>Procedure:<br>1.Place a block of wood on a smooth plastic table top.<br>2.Pull the block of wood along the surface of the table using a newton spring balance.<br>3.Record the reading of the balance as soon as the block of wood moves.(The reading gives the magnitude of the frictional force)<br>4.Repeat the experiment with the same block of wood and the same side placed on a rough floor.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 13:58:38 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274859300</guid>
      </item>
      <item>
         <title>LM01 1171103876 Chua Siang Teng</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274890323</link>
         <description><![CDATA[<div>Hypothesis: During the change of state of naphthalene form liquid to solid, there is no change in temperature.<br>&nbsp;Procedure:<br>1. The apparatus is set up.<br>2. The naphthalene is heated until the temperature reaches 95 degree celsius.<br>3. The boiling tube is then removed form the water bath and the outer part of the tube is dried.<br>4. The temperature of the naphthalene is recorded every minute until the temperature drops at about 60 degree celsius.&nbsp;<br>5. A graph of temperature against time is drawn.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 15:09:44 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274890323</guid>
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      <item>
         <title>LM01 1171103667Nur Emilyn Yoo </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274891257</link>
         <description><![CDATA[<div>Hypothesis: The higher the temperature, the faster the rate of reaction<br>Procedure:<br>1.50ml of 100°c water is measured and poured into a cup.&nbsp;<br>2. 5g of sugar is then added into the cup.&nbsp;<br>3. The stopwatch is started immediately and the solution is stirred gently with a metal spoon.&nbsp;<br>4. Step 1 to 3 is repeated by replacing 100°c water with 37°c water.&nbsp;<br>5. All observations are recorded. </div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 15:12:14 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274891257</guid>
      </item>
      <item>
         <title>1181100911 (HO JIN XI)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274893573</link>
         <description><![CDATA[<div>Hypothesis :<br>Color can affect human appetite<br>Procedure :<br>1. Looking for about 40 people of the same age and gender<br>2. Divide these 40 people into four groups<br>3. Divide the four groups into four different rooms, which are fully painted by red, yellow, blue and green.<br>4. Every room has a lot of food for the group to eat.<br>5. Record the amount each group eats in about one hour<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 15:17:41 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274893573</guid>
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      <item>
         <title>LM01 1171103395 Kong Sue-Vynn</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274894588</link>
         <description><![CDATA[<div>Hypothesis : Alkali metals react similarly with water and oxygen but the reactivity increases down the group.<br>Procedure :<br>A. Reaction of alkali metals with water<br>1. A small piece of lithium is cut with a razor blade and then the paraffin oil on the surface is wiped off using a piece of filter paper.<br>2. The small piece of lithium is then placed into a 500cm<sup>3</sup> beaker half-filled with cold water using a pair of forceps.&nbsp;<br>3. After the reaction has stopped, a few drops of Universal Indicator are added to the solution formed in the beaker.&nbsp;<br>4. Step 1-3 are repeated using a sodium and potassium metals, respectively.&nbsp;<br>B. Reaction of alkali metals with oxygen<br>1. A small piece of lithium is cut with a razor blade. The paraffin oil on the surface of the lithium is then wiped off using a piece of filter paper.<br>2. The small piece of lithium is placed on a combustion spoon and heated until the lithium starts to burn.<br>3. The burning lithium is lowered into a gas jar of oxygen.<br>4. After the reaction has stopped, water is added to dissolve the compound formed.<br>5. A few drops of Universal Indicator are added to the solution formed.<br>6. Step 1-5 are repeated using sodium and potassium, respectively.&nbsp;<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 15:20:17 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274894588</guid>
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      <item>
         <title>LM01 1171103911 Tan Pei Yi </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274895262</link>
         <description><![CDATA[<div>Hypothesis : The bigger the weight, the longer the spring extend<br>Procedure :<br>1) The apparatus is set up As shown in the diagram<br>2) The length of the spring without any weights, l is measured using the metre rule with the pin as reference.<br>3) A 50g weight is hung from the bottom of the spring. The new length of the spring is measured.<br>4) Step 1-4 is repeated with weights 100g, 150g, 200g and 250g<br><br></div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/301497267/6cf6e0277e967434b052c82019951050/C0505341_4F8A_4FAA_B563_3AC8FA9115C0.jpeg" />
         <pubDate>2018-08-23 15:21:46 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274895262</guid>
      </item>
      <item>
         <title>1181100282 (NUR&#39;AINI KHAIDIR)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/274907816</link>
         <description><![CDATA[<div>Hypothesis: Soap is an effective cleansing agent in soft water than hard water.<br>Procedure:<br>1.Pour 100 ml of sea water into a beaker.<br>2.Add 20 ml of liquid soap into the beaker.<br>3.Stir the mixture.<br>4.Place a piece of cloth with oil stan into the beaker.<br>5.Record the observation.<br>6.Repeat the steps from 1-4 using distilled water.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-23 15:55:17 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/274907816</guid>
      </item>
      <item>
         <title>1181100673 Liew Cheng Feng</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275041568</link>
         <description><![CDATA[<div>&nbsp;</div><div>Hypothesis: Human will appear to be suffering depression or other mental disorders when encountering loneliness.&nbsp;<br><br></div><div>Procedures:&nbsp;<br><br></div><div>1. &nbsp; Randomly select 40 volunteers as experiment subjects.&nbsp;</div><div>2. &nbsp; The subjects are divided equally into 2 groups.&nbsp;</div><div>3. &nbsp; For the first group, all the subjects are quarantined into different rooms for each person with camera installed for a week provided with basic needs.&nbsp;</div><div>4. &nbsp; Subjects in the first group are not allowed to make any contact with anyone, hence no internet, telephone, or any way of communication.&nbsp;</div><div>5. &nbsp; Subjects in the second group are divided in pair into rooms similar to the first group for the same amount of time, but communication between a pair is allowed.&nbsp;</div><div>6. &nbsp; The activities of all the subjects in the rooms are observed and recorded throughout the experiment.&nbsp;</div><div>7. &nbsp; Comments and mental state of the subjects have to be taken and recorded after 1 week.&nbsp;<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 01:46:33 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275041568</guid>
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      <item>
         <title>1171103692 LIM CHIA WEI</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275044850</link>
         <description><![CDATA[<div>Hypothesis:when the velocity of water increases,its pressure decrease and vice versa.<br>Procedure:<br>1.A unicorn glass tube is connected to a tap with a rubber hose.The other end of the tube is closed up with a stopper.<br>2.The tap is opened slowly so that water flow into it.<br>3.The levels of vertical tubes are observed.<br>4.The stopper Is then removed.The tap is adjusted so that the water flows through the tube at a uniform rate.<br>5.The levels of the vertical tubes are observed.<br>6.The experiment is repeated by replacing the uniform glass tube with a Venturi tube.<br><br><br><br></div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/306565826/647b6240daadcf120fa5a7303e8e722c/55729ACF_A86C_4644_AF50_C403088BF29C.jpeg" />
         <pubDate>2018-08-24 02:15:46 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275044850</guid>
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      <item>
         <title>1171103908 Tan Hui Lin</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275051620</link>
         <description><![CDATA[<div>Hypothesis : The pressure in a liquid increases when the depth of the liquid increases.&nbsp;<br><br>Procedures :<br>1) The measuring cylinder is completely filled with water.&nbsp;<br>2) the thistle funnel is connected to the manometer with a rubber tube.&nbsp;<br>3) the thistle funnel is lowered into the water to a depth, y=10.0 cm.&nbsp;<br>4) step 3 is repeated with values of depth, y= 20.0 cm, 30.0 cm, 40.0 cm, 50.0cm. </div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 02:24:58 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275051620</guid>
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      <item>
         <title>1181101714 Ngwe Jia Le</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275054925</link>
         <description><![CDATA[<div>Hypothesis:</div><div>When the volume of air decreases, the pressure increases when its mass and temperature is constant</div><div><br></div><div>Procedure:</div><div>1.The nose of the syringe is fitted with a rubber hose and the piston is adjusted so that air volume of 100 cm<sup>3</sup> at atmospheric pressure is trapped in the syringe.</div><div>2.The rubber hose is connected to a Bourdon gauge and air pressure is read from the gauge.</div><div>3.The piston of the syringe is pushed in until the trapped air volume becomes 90 cm<sup>3</sup> and the air pressure is read from the Bourdon gauge.</div><div>4.The experiment is repeated for air volume values 80, 70 and 60 cm<sup>3</sup>.</div><div><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 02:48:50 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275054925</guid>
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      <item>
         <title>1171103820 Muhiilesh Kesavan</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275060052</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 03:36:45 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275060052</guid>
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         <title>LM01-1171103730 Pong Jing Ching               Hypotesis：To prepare ammonium sulphate</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275064796</link>
         <description><![CDATA[<div>1.Drip ammonia solution drop by drop into the sulphuric acid while stirring until the solution smells of ammonia（or the red litmus paper turns blue）.<br><br>2.Pour the mixture into an evaporating dish and boil the mixture to obtain a saturated solution(1/3 of the initial volume remains).<br><br>3.Cool down the solution until salt crystals form.<br><br>4.Filter the mixture to get the salt crystals.<br><br>5.Rinse the salt crystals with a little cold distilled water.<br><br>6.Dry the ammonium sulphate crystals with filter paper.<br> <br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 04:30:49 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275064796</guid>
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      <item>
         <title>1171103408 Yong Yu Yoong </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275065473</link>
         <description><![CDATA[<div>Hypothesis:  The longer the length of a simple pendulum, the longer will be the period of oscillation.<br><br>Procedure:  </div><div>1.  Set up the apparatus as shown in Figure above.// A small brass or bob was attached to the thread. The thread was held by a clamp of the retort stand.<br>2. The length of the thread , <em>l  </em>was measured by a metre rule, starting with 90.0 cm. The bob of the pendulum was displaced and released.</div><div>3.  The time for 20 complete oscillations, t was taken using the stop</div><div>watch.  Calculate the period of oscillation by using, T = t / 20</div><div>4. The experiment was repeated using different lengths such as 80.0 cm. 70.0 cm, 60.0 cm, 50.0 cm and 40.0 cm. </div><div><br> </div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/306583243/628db3b7259df1e45b248f71fa9e31a1/pendulum.jpg" />
         <pubDate>2018-08-24 04:39:02 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275065473</guid>
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      <item>
         <title>1181100258(Luigi Luke Lazaroo</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275071266</link>
         <description><![CDATA[<div>Hypothesis:<br>The depth of the liquid increase,the pressure in liquid increase<br>Procedure:<br><br></div><ol><li>Use the scissors to remove the label from the soda bottle.</li><li>Use the ruler to mark a point three inches from the bottom of the bottle.</li><li>Mark a second point directly above the first, about eight inches from the bottom of the bottle.</li><li>Put the cap on the soda bottle and lay it horizontally on a flat surface.</li><li>Have your grown-up poke the nail through each of the holes you marked.</li><li>Cover the holes you made with tape.</li><li>Fill the bottle to the top with water, and set the bottle near the side of the sink, with the holes facing the sink.</li><li>Remove the tape from the holes and watch.</li></ol>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 06:02:55 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275071266</guid>
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      <item>
         <title>1171103462 Yeow Wei Wen</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275084091</link>
         <description><![CDATA[<div>Hypothesis: Plants need sunlight to grow.<br><br>Procedures:</div><ol><li>Two identical plants are placed in the same place under the sun.</li><li>Plant A and plant B are labeled.</li><li>Both plants are provided with enough air and water.</li><li>Plant B is covered with a black box.</li><li>Both of the plants are left at the same place for a few days.</li></ol>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 07:58:58 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275084091</guid>
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      <item>
         <title>1171103123 Tan Jie Xin </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275092750</link>
         <description><![CDATA[<div>Hypothesis :<br>The bigger the weight,the longer the spring extension. <br>Procedure :<br>1.The apparatus is setup as shown in the diagram. <br>2.The length of the spring without any weight, L0 is measured using the metre rule with the pin as reference. <br>3.A 50g weight is hung from the bottom of the spring. The new length of the spring, L is measured. The spring extension is L - L0.<br>4.Step 4 is repeated with weights 100g,150g,200g,and 250g</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 09:28:46 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275092750</guid>
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      <item>
         <title>1171103877 Lai Yi Wen</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275094633</link>
         <description><![CDATA[<div>Hypothesis :<br>Water pressure increases with depth. <br>Procedure :<br>1.Appratus is set up as shown in the diagram. <br>2.The measuring cylinder is completely filled with water. <br>3.The thisle funnel is lowered into the water to a depth of 10.0cm.The manometer reading is measured.The difference in the liquid heights in the manometer represent the pressure reading. <br>4.Step 3 is repeated with values of depth 20.0cm,30.0cm,40.0cm,and 50.0cm</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 09:53:35 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275094633</guid>
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      <item>
         <title>1171103352 Choo Jia Le</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275098207</link>
         <description><![CDATA[<div>Hypothesis:  The thickness or length of the nail affect the electromagnets strength<br><br>Procedure:<br>1. Leave about 8 inches of wire loose at one end and wrap most of the rest of the wire around the nail. Try not to overlap the wires.<br>2. Cut the wire (if needed) so that there is about another 8 inches loose at the other end too.<br><br></div><div>3. Now remove about an inch of the plastic coating from both ends of the wire and attach the one wire to one end of a battery and the other wire to the other end of the battery. See picture below. (It is best to tape the wires to the battery – be careful though, the wire could get very hot!)<br>4. Now you have an ELECTROMAGNET! Put the point of the nail near a few paper clips and it should pick them up!<br><br></div><div><br><br></div><div><br><br></div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/286684017/947d28d38c358b73f90577e824f2d6bd/electromagnet_350x440.jpg" />
         <pubDate>2018-08-24 10:39:30 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275098207</guid>
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      <item>
         <title>1171103933 puvarasan</title>
         <author>worldbippuvarasan66</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275108085</link>
         <description><![CDATA[<div>Hypothesis: when the current flowing to a light bulb increases, it`s resistance increases<br><br>Procedure:<br>1. A circuit as shown in the diagram is set up.<br>2. A light bulb is connected to terminal x to terminal y<br>3. The switch is pressed and the rheostat&nbsp; is adjusted until the ammeter reading I is 0.2A.The voltage across the eureka wire,V is measuring using the voltmeter.<br>4. The rheostat is adjusted&nbsp; to increase the value of current I and the corresponding voltmeter reading ,V is recorded.<br>5. The experiment is repeated eith current values 0.3A, 0.4A, 0.5A.&nbsp;<br>5. The values I and V are tabulated and a graph of V against I is plotted.&nbsp;<br><br></div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/300707487/e435ba8f94c291a70c0073fa4969f646/ohm_app.jpg" />
         <pubDate>2018-08-24 12:08:53 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275108085</guid>
      </item>
      <item>
         <title>1171103504 KOH SHI JING</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275109922</link>
         <description><![CDATA[<div>Hypothesis: The bigger the size and the shorter the length of a wire, the less electrical energy is lost in the circuit.<br><br>Procedure:<br>1.&nbsp; A piece of constantan wire with s.w.g. 24 of length, l = 50cm is connected.<br><br>2. The switch is closed and the voltmeter is and ammeter are recorded.<br><br>3. The power dissipated is calculated using the formula, P = VI.<br><br>4. The steps are repeated by using constantan wires of the same length, l = 50cm but of different sizes (s.w.g. 26, a.w.g. 28, s.w.g. 30, s.w.g. 32).<br><br>5. The steps are once repeated again by changing the length of the constantan wires with 20cm, 40cm, 60cm, 80cm and 100cm but with the same size of the wires at s.w.g. 26.<br><br>6. &nbsp;The results are recorded.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 12:23:05 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275109922</guid>
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      <item>
         <title>Make ☕☕ o...</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275114505</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 12:46:45 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275114505</guid>
      </item>
      <item>
         <title>LM02 Chieiu Hui Shee (1161103902)</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275115460</link>
         <description><![CDATA[<div>Hypothesis :The air from different environments does not contain&nbsp; the same amount of solid pollutants.&nbsp;<br>1.Five slides are prepared and labelled A, B, C, D, and E.&nbsp;<br>2.A piece of cellophane tape with the adhesive surface facing upwards is stuck on each slide.&nbsp;<br>3.The slides are placed at five spots in five different types of environment.&nbsp;<br>4.All slides are left aside for one week.&nbsp;<br>5.All slides are collected after one week and each is viewed under a microscope using a low power.&nbsp;<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 12:50:41 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275115460</guid>
      </item>
      <item>
         <title>1171103363 Lau Wan Ying LM</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275120811</link>
         <description><![CDATA[<div>Hypothesis: The greater the mass of the sloted weight, the greater the extention of the spring<br><br></div><div> <br><br></div><div>Procedure: <br><br></div><div>1) Set up the apparatus. Start the experiment with mass of the sloted weight, m=25g<br><br></div><div>2) Measure and record the extention of the spring, x by using a metre rule<br><br></div><div>3) Repeat the experiment with m=50g, 75g, 100g, and 125g<br><br></div>]]></description>
         <enclosure url="https://o.quizlet.com/VfGu7RDp8q5amyzSLIZqSA_b.png" />
         <pubDate>2018-08-24 13:07:15 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275120811</guid>
      </item>
      <item>
         <title>1171103570 TAN SOO CHIN</title>
         <author>soochin3274</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275125978</link>
         <description><![CDATA[<div>Hypothesis: <br>The larger the angle of incline, the higher the velocity just before reaching the end of the runway.<br><br>Procedure:<br>1) The apparatus is set up as per diagram, and the inclined angle of the plane is measured using a protractor. An initial angle of 5° is used.<br>2) The ticker-timer is started up and at the same time the trolley is released to slide down the plane.<br>3) The final velocity when the trolley reaches the end of the plane is calculated using the distance of 10 ticks on the ticker tape.<br>4) The procedure is repeated by changing the angle of incline to 10°, 15°, 20° and 25°.<br><br></div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/298698101/9e27d2c0e120eb9b8a53151cbe070094/Capture.png" />
         <pubDate>2018-08-24 13:24:36 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275125978</guid>
      </item>
      <item>
         <title>1171103865 GUEE JIAN SING</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275156976</link>
         <description><![CDATA[<div>Hypothesis:<br>When the current increases, the temperature/heat increases.<br><br>Procedure of the experiment:<br>1.)Method to control MV.<br>2.)Switch on the circuit.Adjust rheostat so that &nbsp; ( I = 1.0 A )<br>3.)Method to control RV .Measure δ by using a thermometer.<br>4.)Repetition.Repeat the experiment with I = 2.0 A, 3.0 A, 4.0 A ,5.0 A using water with the same volume , immersion heater with the same resistance and for the same period of heating time.<br>&nbsp; &nbsp;&nbsp;<br><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 14:55:20 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275156976</guid>
      </item>
      <item>
         <title>1171103822 AW YONG CHUAN MING</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275159516</link>
         <description><![CDATA[<div>Hypothesis: The larger the mass the higher the inertia.<br><br>Procedure of the experiment:<br>1) One end of the jigsaw blade is clamped to the leg of a table with a G-clamp as the diagram drawn.<br>2) A 20g plasticine ball is fixed at the free end of the blade.<br>3) The free end of the blade is displaced horizontally and released so that it oscillates. The time for 10 complete oscillation is recorded. Then, the period of oscillation is determined.<br>4) Step 2 and 3 are repeated using plasticine balls with masses 40g, 60g, 80g and 100g.<br>5) A graph of&nbsp;T² versus mass of load, m is drawn.</div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/306662024/1f91d5e5f0bc224e56dcf54c716c9324/Capture.jpg" />
         <pubDate>2018-08-24 15:01:45 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275159516</guid>
      </item>
      <item>
         <title>1171103369 KENDY WONG JIA KANG</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275168288</link>
         <description><![CDATA[<div>Hypothesis: The brightness of the bulb depends on the number of dry cells.<br><br>Procedure:<br>1) One dry cell is connected and the switch is closed.<br><br>2) Reading of the ammeter is recorded.<br><br>3) Experiment is repeated by increasing the number of dry cells from 1 to 2, 3, 4 and 5.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 15:26:09 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275168288</guid>
      </item>
      <item>
         <title></title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275168314</link>
         <description><![CDATA[<div>1171103921 CHIN CAREEN<br>Hypothesis: When the volume is decrese , the pressure increasewhen its temperature and mass is constant . <br>Aim : To investigate the relationship between the pressure and volume .<br>Procedure :<br>1.Set up the apparatus .<br>2. The nose of syringe is fitted with a rubber hose and the piston is adjusted  so that the volume  is 100cm.<br>3. The rubber hose is connected  to  a Bourdon gauge . <br>4. Record the experiment.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 15:26:13 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275168314</guid>
      </item>
      <item>
         <title>1171103406 GOH FANG CHIN</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275178955</link>
         <description><![CDATA[<div>Hypothesis: The presence of salt  increases the boiling point of a pure liquid.<br><br>Procedure : <br>1. Distilled water was filled into a beaker until it is half full.<br>2.  The water was heated until it is boiled. The temperature was recorded.<br>3.  Two spatulas of salt were added into the distilled water and the mixture was heated again. <br>4. The boiling point of the mixture of water and salt were recorded.<br><br><br><br></div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/281434020/ec3d1fa5090776df63db1b13deb893a1/chapter_4_matter_and_substances_25_638.jpg" />
         <pubDate>2018-08-24 15:54:14 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275178955</guid>
      </item>
      <item>
         <title>1171103554 HO CHIN HAN</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275195329</link>
         <description><![CDATA[<div>Hypothesis:&nbsp;<br>The bigger the jar, the more oxygen contain.<br><br>Procedure:<br>1)Set up the apparatus.<br>2)Label the jar A,B,C.<br>3) Put the jars in a row from smallest to largest.<br>4)Light the tea candle, and place the jar over it.<br>5)Start the stopwatch<br>6)Record down the actual length of time for each candle burned out base on the label of the jar.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-24 16:41:55 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275195329</guid>
      </item>
      <item>
         <title>1171103410 CHOONG TING HUI</title>
         <author>1171103410</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275300200</link>
         <description><![CDATA[<div>Hypothesis:<br>Ions which is higher concentration will be select to discharge in the process of electrolysis.<br><br>Procedure:<br>1) Concentrated aqueous copper(II) chloride solution 2.0 moldm is put into an electrolytic cell with carbon electrodes.<br><br>2) Two test tube which filled with copper(II) chloride solution are inverted over the carbon anode and cathode respectively.<br><br>3) The switch is turn on and electric current is allowed to flow for 15 min<br><br>4) if there are any change of colour of electrolyte and other change that occur around the carbon electrode are recorded.<br><br>5) The procedure&nbsp; are repeated using dilute copper(II) chloride solution with 0.1&nbsp; moldm to replace concentrated copper(II) chloride solution.&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-25 05:31:32 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275300200</guid>
      </item>
      <item>
         <title>1171103891 Chong Zhi Ren LM01</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275304771</link>
         <description><![CDATA[<div>Hypothesis:<br>Metal is the best heat conducter.<br><br>Procedure:</div><ol><li>Begin my positioning 3 spoons in a small glass bowl.</li><li>Place a small pat of butter at the top of each spoon</li><li>Put a bead in each pat of butter</li><li>Carefully pour hot boiling water into the bowl until it is almost completely full. Be careful not to allow the spoons to fall into the bowl.</li><li>Watch carefully to see what happens to the beads. Note: You will likely need to watch the experiment for 5-10 minutes before anything happens.</li></ol><div><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-25 08:19:03 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275304771</guid>
      </item>
      <item>
         <title>1171103820 Muhiilesh Kesavan </title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275354455</link>
         <description><![CDATA[<div>Hypothesis:</div><div>Plant cell has a fixed shape but not animal cell.</div><div>Procedure:</div><div>1. A scale leaf from an onion bulb are obtained</div><div>2. By using a forcep .the inner surface of onion scale leaf is peeled off&nbsp;</div><div>3. One drop of distilled water was placed in the middle of glass slide</div><div>4. With a needle ,the cover slip is dropped slowly at 450</div><div>to the glass slide so that no air bubble</div><div>being trapped</div><div>5. A drop of iodine solution was dropped at one side of the cover slip</div><div>6. A filter paper was placed at the opposite end of the opposite end of the cover slip to allow the</div><div>spreading of solution absorbing excess solution</div><div>7. The slide is observed under a light microscope using a low power objective lens then high power</div><div>objective lens</div><div>8. The plant structure is then drawn and recorded by using a microscope</div><div>9. This experiment is repeated using a cheek cell</div><div>10. The mouth is rinsed before starting with experiment</div><div>11. By using a toothpick, the inner mouth were scrapped to get some cheek cell</div><div>12. Then the cheek cell was placed onto a glass side</div><div>13. A drop of methylene blue solution was added</div><div>14. Slowly the cover slips was dropped, then the filter paper were placed at one end of the cover slip for irrigation</div><div>15. This slide is then observe and the structure was recorded by using a microscope</div><div>16. All the results are tabulated in a table</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-26 06:17:55 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275354455</guid>
      </item>
      <item>
         <title>1171102575 Teh Huei Yi</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275367850</link>
         <description><![CDATA[<div>Hypothesis:<br>Drinking a cup of coffee before bed, is hard to fall asleep.<br>Procedure:<br>1. Choose two voluntarily person in mmu.<br>2. Ask them what time they usually go to bed.<br>3. Give one person a cup of coffee at night 1 hour before he go to bed.<br>4. Record the time both the person fall asleep.<br>5. Compare the time between the two person.<br><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-26 12:59:02 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275367850</guid>
      </item>
      <item>
         <title>1171103575 Cha Jie Yee</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275369599</link>
         <description><![CDATA[<div>Hypothesis:<br>Water pressure increases with depth.<br>Procedure: <br>1.Apparatus is set up as shown in the diagram.<br>2.The measuring cylinder is completely filled in water.<br>3.The thistle funnel is lowered into the water to a depth of 10.0cm. The manometer reading is measured.The difference in the liquid height in the manometer represent the pressure reading.<br>4.Repeated with the values od depth 20.0cm ,30.0cm, 40.0cm and 50.0cm</div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/306323829/4cbc4fc5ca47b4f7e05b1578befe6d5b/expt_pic.docx" />
         <pubDate>2018-08-26 13:37:31 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275369599</guid>
      </item>
      <item>
         <title>1171103562 Shee Jun Xian</title>
         <author>prowukong2000</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275370520</link>
         <description><![CDATA[<div>Hypothesis:<br>If I add fertilizer to my garden, then my plants will grow faster.<br><br>Procedure:<br>1. Prepare 2&nbsp; plants in pots mark as A&nbsp; &nbsp; &nbsp; and B respectively.<br>2. Place 2 plants at the same place where has sunlight .<br>3. Water the plant A and&nbsp; plant B everday.<br>4.Add fertilizer to plant A&nbsp; for 1 week.&nbsp;<br>5. Record the changes of the plants A and B after 1 week.<br>6. Compare the result between A and B.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-26 13:56:10 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275370520</guid>
      </item>
      <item>
         <title>1171103602 tanjunyin</title>
         <author>tanjunyin1945</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275381977</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2018-08-26 17:16:24 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275381977</guid>
      </item>
      <item>
         <title>1171103185 Iris Tan Xin Yee</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275425481</link>
         <description><![CDATA[<div>Hypothesis:<br>&nbsp;Different types of electrodes will form different products at the electrodes.&nbsp;<br><br>Procedure:<br>&nbsp;1. The carbon electrodes are cleaned with a piece of sandpaper.</div><div>2. The carbon electrodes are weighed individually and the readings are recorded.</div><div>3. An electrolytic cell is set up as shown in the diagram.</div><div>4. The cell is filled up with copper(II) sulphate solution until its level is above</div><div>the electrodes .</div><div>5. The electric current is allowed to flow for 15 minutes.</div><div>6. Changes at both electrodes are noted and recorded.</div><div>7. The gas collected is tested with a glowing wooden splinter.</div><div>8. The anode is taken out, washed, dried and then weighed using an electronic balance.</div><div>9. The experiment is repeated using copper electrodes.</div><div>10. All the readings and observations are recorded.&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-27 02:26:48 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275425481</guid>
      </item>
      <item>
         <title>11711</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275461850</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2018-08-27 07:17:08 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275461850</guid>
      </item>
      <item>
         <title>1171103764 Yong Sze K</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275461855</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2018-08-27 07:17:09 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275461855</guid>
      </item>
      <item>
         <title>LM01 1171103871 Chong Chun Heng</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275507858</link>
         <description><![CDATA[<div>Hypothesis:<br>The current increases as the rate of flow of electric charge increases.<br><br>Procedure:<br>1. By using a meter rule, the distance between two metal plate is measured = x.<br>2. The motor of the Van de Graaff is turned on for a few minutes.<br>3. The ping-pong ball is touched to metal plate.<br>4. The reading of microammeter is recorded = I.<br>5.The experiment is repeated 5 times for with different distances between two metal plates.</div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/305783241/dda9e1a92240950cb7f712f1269c76fb/1273327054.jpg" />
         <pubDate>2018-08-27 12:45:22 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275507858</guid>
      </item>
      <item>
         <title>1181101942 VAISHINI RAVEENDRAN</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/275758988</link>
         <description><![CDATA[<div>Hypothesis:<br>The angle of reflection is equal to the the angle of incident.<br>Procedure:<br>1.A ripple tank is set up.<br>2. A plane reflector is placed in the middle of the tank so that it is parallel with the incident wavefronts, as shown in the diagram (a) above. The reflected waves are observed through a stroboscope.<br>3. The reflector is then adjusted so that the incident waves approach the reflector at incident angles of 20, 40, 60 and 80 as shown in diagram (b). For each situation, the reflected angle is observed.<br>4. The wavelength of the incident and reflected waves are observed and compared. </div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/301209808/1f446e2b720770707157fb30e1f0c1fc/Capture.jpg" />
         <pubDate>2018-08-28 03:45:56 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/275758988</guid>
      </item>
      <item>
         <title></title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/276106737</link>
         <description><![CDATA[eep.
5. Compare the time between the two person.]]></description>
         <enclosure url="" />
         <pubDate>2018-08-29 03:09:04 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/276106737</guid>
      </item>
      <item>
         <title></title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/276106741</link>
         <description><![CDATA[1. A scale leaf from an onion bulb are obtained
]]></description>
         <enclosure url="" />
         <pubDate>2018-08-29 03:09:05 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/276106741</guid>
      </item>
      <item>
         <title>1171103647 Prof. Alif Iskandar</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/276165525</link>
         <description><![CDATA[<div>Hypothesis:<br>Praying mantis is a carnivore<br><br>Procedure : <br>1. Put a praying mantis inside a clear box.<br>2. Put a small insects or worm inside the box with the praying mantis.<br>3. Observe the reactions of praying mantis.<br>4. Repeat step 2 until 4 with changing small insects or worm to leaf <br><br></div>]]></description>
         <enclosure url="https://padlet-uploads.storage.googleapis.com/307645363/9a087144021a14729a46e8d0b95a5694/download.jpg" />
         <pubDate>2018-08-29 10:21:23 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/276165525</guid>
      </item>
      <item>
         <title>1171103364 MUHAMMAD AMIRUL ZAFRAN BIN RAMLI</title>
         <author></author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/276192840</link>
         <description><![CDATA[<div>HYPOTHESIS:<br>Tyre pressure effect acceleration of vehicle.<br><br>PROCEDURE:<br>&nbsp;1. Prepare two vehicle of the same kind/brand.<br>2. Put car a with a low tyre&nbsp; pressure and the other one with the good amount of tyre pressure.<br>3. Drive both of the car on the same road and the same distance.&nbsp;<br>4. Record the time taken for the car to hit 50km/h.<br>5.&nbsp; Try for a few time and take the average.<br>6. Compare the results of both car.</div>]]></description>
         <enclosure url="" />
         <pubDate>2018-08-29 12:48:35 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/276192840</guid>
      </item>
      <item>
         <title>Kang Chuen Yik 1181101967</title>
         <author>1181101967</author>
         <link>https://padlet.com/masyitah_mmu/ALL_1810/wish/289562045</link>
         <description><![CDATA[<div>Hypothesis : <br>Flies show a selectivity of response to sugars based on molecular size and structure.<br><br>Procedure:<br>1.Stuck flies to popsickle sticks by pushing their wings into a sticky wax that<br>rubbed on the sticks.<br><br>2. Then, make a dilution series of glucose, maltose, and sucrose in<br>one-half log molar steps from the 1M<br>concentrations of the sugars we were given<br><br>3.Test the flies’ sensory perception by<br>giving each fly the chance to feed from each sugar, starting with the lowest concentration<br>and working up.<br><br>4.Rinse the flies between tests by swishing their feet in distilled water. <br><br>5.Count a positive response whenever a fly lowered its proboscis.<br><br>6.To ensure that<br>positive responses were to sugars and not to water, let them drink distilled water before<br>each test.<br><br>Therefore,Hypothesis is accepted. </div>]]></description>
         <enclosure url="" />
         <pubDate>2018-10-05 12:09:56 UTC</pubDate>
         <guid>https://padlet.com/masyitah_mmu/ALL_1810/wish/289562045</guid>
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