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      <title>Biology Final Study Guide by JASMINE HANNING</title>
      <link>https://padlet.com/jasminehanning001/cougars_Hanning</link>
      <description>Made with a warm hug</description>
      <language>en-us</language>
      <pubDate>2016-12-05 20:58:57 UTC</pubDate>
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      <item>
         <title>Photosynthesis: Inputs and Outputs</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/141887445</link>
         <description><![CDATA[<div>Inputs- <br>6H2O, 6CO2 (light) energy<br>Outputs-<br>C6H12O6 (Glucose) , 6O2</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-05 21:10:45 UTC</pubDate>
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      <item>
         <title>Photosynthesis: Chemical Formula</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/141889592</link>
         <description><![CDATA[<div>6CO2+ 6H20= C6H12O6 +6O2</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-05 21:23:07 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/141889592</guid>
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      <item>
         <title>Photosynthesis: Chloroplast </title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/141890346</link>
         <description><![CDATA[<div>(in green plant cells) a plastid that contains chlorophyll  and which the photosynthesis takes place</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-05 21:28:06 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/141890346</guid>
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      <item>
         <title>Photosynthesis: Light-Dependent Cycle</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143489170</link>
         <description><![CDATA[<div>Light-dependent cycle is one of two stages to produce of Photosynthesis. Light-dependent  reactions, which take place in the thylakoid membrane, use lightenergy to make ATP and NADPH.</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-13 20:58:37 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143489170</guid>
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      <item>
         <title>Photosynthesis: Calvin Cycle</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143489865</link>
         <description><![CDATA[]]></description>
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         <pubDate>2016-12-13 21:02:55 UTC</pubDate>
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      <item>
         <title>Photosynthesis: How light energy is transformed into chemical energy</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143977831</link>
         <description><![CDATA[<div><strong>Light energy</strong> is <strong>converted</strong> to <strong>chemical energy</strong> when a photochemically excited special chlorophyll molecule of the photosynthetic reaction center loses an electron, undergoing an oxidation reaction.</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:21:09 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143977831</guid>
      </item>
      <item>
         <title>Law of Conservational of Matter</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143977954</link>
         <description><![CDATA[<div>The <strong>law of conservation</strong> of mass or principle of mass <strong>conservation</strong> states that for any system closed to all transfers of <strong>matter</strong> and energy, the mass of the system must remain constant over time, as system mass cannot change quantity if it is not added or removed</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:24:41 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143977954</guid>
      </item>
      <item>
         <title>Law of Conservational of Energy</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978082</link>
         <description><![CDATA[<div>The <strong>law of conservation of energy</strong> states that the total <strong>energy</strong> of an isolated system remains constant—it is said to be conserved over time.</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:28:13 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978082</guid>
      </item>
      <item>
         <title>Law of Conservational of Mass-Energy</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978113</link>
         <description><![CDATA[<div>It implies that <strong>energy</strong> can neither be created nor destroyed, but can be change from one form to another. The <strong>law of conservation of mass</strong> states that the total amount of <strong>mass</strong> remains constant in an isolated system in spite of any physical or chemical changes that may take place.</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:29:17 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978113</guid>
      </item>
      <item>
         <title>How is Energy equal to Matter?</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978148</link>
         <description><![CDATA[<div><strong>Energy</strong> is <strong>equal to matter</strong> multiplied by the speed of light squared. ... The reason is that kinetic <strong>energy</strong>, or the <strong>energy</strong> of motion, is proportional to mass.</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:30:38 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978148</guid>
      </item>
      <item>
         <title>Carbon Cycle: Cellar Respiration </title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978338</link>
         <description><![CDATA[<div><strong>Cellular respiration</strong> releases <strong>carbon</strong> dioxide, which is used in photosynthesis</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:37:45 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978338</guid>
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      <item>
         <title>Carbon Cycle: Products of Photosynthesis = Reactants of Cellular Respiration</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978463</link>
         <description><![CDATA[<div><strong>Photosynthesis</strong> makes the glucose that is used in <strong>cellular respiration</strong> to make ATP. The glucose is then turned back into <strong>carbon</strong> dioxide, which is used in <strong>photosynthesis</strong>. ... While <strong>photosynthesis</strong> requires <strong>carbon</strong> dioxide and releases oxygen, <strong>cellular respiration</strong> requires oxygen and releases <strong>carbon</strong> dioxid</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:41:37 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978463</guid>
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      <item>
         <title>Carbon Cycle: CO2 emissions</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978486</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:42:25 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978486</guid>
      </item>
      <item>
         <title>Food Web Energy Pyramid: the transfer of energy in a ecosystem  </title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978617</link>
         <description><![CDATA[]]></description>
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         <pubDate>2016-12-16 02:44:36 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978617</guid>
      </item>
      <item>
         <title>Food Web Energy Pyramid:  Autotrophs (producers)</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978984</link>
         <description><![CDATA[<div><strong>Producers</strong> convert <strong>energy</strong>from the environment into carbon bonds, such as those found in the sugar glucose. ... Organisms that eat <strong>autotrophs</strong> are called herbivores or primary consumers.</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:52:58 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143978984</guid>
      </item>
      <item>
         <title>Food Web Energy Pyramid: Heterotrophs (Consumers)</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143979051</link>
         <description><![CDATA[<div>Organisms that eat autotrophs are called herbivores or primary <strong>consumers</strong>.</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:55:08 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143979051</guid>
      </item>
      <item>
         <title>Food Web Energy Pyramid: Herbivore, Omnivore, Carnivore  </title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143979284</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 02:58:55 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143979284</guid>
      </item>
      <item>
         <title> Food Web Energy Pyramid: Decomposers</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143981611</link>
         <description><![CDATA[<div><strong>Decomposers</strong> can be primary, secondary, and tertiary consumers depending on which level of the <strong>trophic pyramid</strong> they are consuming at. ... They are also primary consumers (because they eat producers).&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 04:03:16 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143981611</guid>
      </item>
      <item>
         <title>Food Web Energy Pyramid: Amount of energy that is available at each level </title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143981641</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 04:04:40 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143981641</guid>
      </item>
      <item>
         <title> Food Web Energy Pyramid: How much energy is transfered at each level</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143981751</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 04:09:19 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143981751</guid>
      </item>
      <item>
         <title>Biomolecule: Proteins, Lipids, Carbohydrates, Nucleic Acids </title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143981795</link>
         <description><![CDATA[<div><strong>Proteins: </strong>A molecule composed of polymers of amino acids joined together by peptide bonds<br><strong>Lipids: </strong>comprise a group of naturally occurring molecules that include fats, waxes, sterols, fat-soluble vitamins <br><strong>Carbohydrates: </strong> Examples include sugar, starch, cellulose and gums<br><strong>Nucleic Acids:</strong>consist of either one or two long chains of repeating units called nucleotides, which consist of a nitrogen base (a purine or pyrimidine) attached to a sugar phosphate. The two main nucleic acids are DNA and RNA.</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 04:10:59 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143981795</guid>
      </item>
      <item>
         <title>Biomolecules: Elements (C, H, O, N, P, S)</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143982213</link>
         <description><![CDATA[<div><strong>C</strong>- Carbon<br><strong>H- </strong>Hydrogen <br><strong>O-</strong> Oxygen<br><strong>N- </strong>Nitrogen<br><strong>P- </strong>Phosphorus<br><strong>S- </strong>Sulfer</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 04:26:29 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143982213</guid>
      </item>
      <item>
         <title>Biomolecules: The structure of the major Biomolecules </title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143982377</link>
         <description><![CDATA[<div>Nucleic acids are the second type of <strong>biomolecules</strong> that we will discuss. These molecules are responsible for all of our genetic information. You are probably very familiar with DeoxyriboNucleic Acid (DNA) and RiboNucleic Acid (RNA)</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 04:33:59 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143982377</guid>
      </item>
      <item>
         <title>Biomolecules: How do the products of photosynthesis become amino acids?</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143982872</link>
         <description><![CDATA[]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 04:58:48 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143982872</guid>
      </item>
      <item>
         <title>How are photosynthesis and Cellular Respiration related to one another in the biosphere?</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143982963</link>
         <description><![CDATA[<div><strong>Photosynthesis</strong> makes the glucose that is used in <strong>cellular respiration</strong> to make ATP. The glucose is then turned back into carbon dioxide, which is used in <strong>photosynthesis</strong>. While water is broken down to form oxygen during <strong>photosynthesis</strong>, in <strong>cellular respiration</strong> oxygen is combined with hydrogen to form water.</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 05:03:45 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143982963</guid>
      </item>
      <item>
         <title>What are two types of respiration?</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143983018</link>
         <description><![CDATA[<div>Aerobic respiration and Anaerobic respiration</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 05:05:58 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143983018</guid>
      </item>
      <item>
         <title>Respiration takes place in three main stages that are?</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143983043</link>
         <description><![CDATA[<div>1. Glycolyis<br>2. Krebs Cycle<br>3. Electron Transport Chain </div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 05:07:26 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143983043</guid>
      </item>
      <item>
         <title>The pyretic acid may...</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143983089</link>
         <description><![CDATA[<div>Enter the Mitochondria for the kern cycle.<br>May remain in the cytoplasm for fermentation</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 05:09:42 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143983089</guid>
      </item>
      <item>
         <title>Cellular Respiration: Glycolysis</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143983255</link>
         <description><![CDATA[<div><strong>Glycolysis</strong> is a series of reactions that and extract energy from glucose by splitting it into two three-carbon molecules called pyruvates. ... In organisms that perform <strong>cellular respiration</strong>, <strong>glycolysis</strong> is the first stage of this process</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-16 05:16:38 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/143983255</guid>
      </item>
      <item>
         <title>Cellular Respiration: The Bridge Reaction</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/144256575</link>
         <description><![CDATA[]]></description>
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         <pubDate>2016-12-19 04:12:58 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/144256575</guid>
      </item>
      <item>
         <title>Cellular Respiration: The Krebs Cycle </title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/144256865</link>
         <description><![CDATA[]]></description>
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         <pubDate>2016-12-19 04:22:53 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/144256865</guid>
      </item>
      <item>
         <title>Cellular Respiration: The Electron Transport Chain</title>
         <author>jasminehanning001</author>
         <link>https://padlet.com/jasminehanning001/cougars_Hanning/wish/144256932</link>
         <description><![CDATA[<div>he <strong>electron transport chain</strong> is the final stage of aerobic <strong>respiration</strong> leading to the forming of ATP in the inner membrane of the mitochondrion. The emergent picture is that of coupled reactions through five protein structures associated with that inner membrane. Complex I (NADH-coenzyme Q oxidoreductase).</div>]]></description>
         <enclosure url="" />
         <pubDate>2016-12-19 04:26:13 UTC</pubDate>
         <guid>https://padlet.com/jasminehanning001/cougars_Hanning/wish/144256932</guid>
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