https://padlet.com/chappaquacsd/ooarvklua4y5spr1 Expand the image and respond to the question. Then choose a classmates response to read and respond in a glow or grow comment. Look at the sentence starters to help structure your feedback! en-us 2021-10-19 14:32:17 UTC 2025-12-07 19:25:53 UTC hello@padlet.com kahannon1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1827407500 Respond in your own post! ]]> 2021-10-19 14:33:26 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1827407500 kahannon1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1827410113 2021-10-19 14:34:06 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1827410113 hebabowal https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1827998315 at higher altitudes the air is less dense and at lower molecules the air is more dense]]> 2021-10-19 17:30:33 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1827998315 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1827999130 The higher the altitude, the lower the temperature water boils at. This is due to the difference in air pressure at the various altitudes.]]> 2021-10-19 17:30:51 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1827999130 etstogsdill1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1827999240 2021-10-19 17:30:53 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1827999240 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828000510 As the altitude increases, the boiling point of water decreases. This is because of the difference in air pressure at the different altitudes. ]]> 2021-10-19 17:31:19 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828000510 raweinberg https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828000540 When altitude decreases, water boils at lower temperatures. This is because of the different amounts of pressure in the air.]]> 2021-10-19 17:31:20 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828000540 aipanzer1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828000747 The higher the elevation means heated water reaches its boiling point more quickly because of the decreased atmospheric pressure.]]> 2021-10-19 17:31:24 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828000747 mecrowe1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828000910 I feel the relationship between altitude and boiling water would be based on the amount of pressure in the air, which differs depending on what altitude the water is boiling at. High altitude has less air pressure meaning the water would boil at a lower rate. ]]> 2021-10-19 17:31:28 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828000910 kalueckerath https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828001577 The higher the altitude the lower the boiling point. This might be due to the air pressure being lower in higher altitudes meaning the boiling point also being lower. ]]> 2021-10-19 17:31:42 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828001577 neroy1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828001648 As elevation increases atmospheric pressure decreases, which causes the boiling point to decrease in temperature.]]> 2021-10-19 17:31:44 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828001648 thkenna https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828001927 As altitude increases, the boiling point of water decreases, and as altitude decreases, the boiling point of water increases. I think this is because of the difference of density and pressure of air depending on altitude. ]]> 2021-10-19 17:31:50 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828001927 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828002070 Because of the difference in air pressure at different altitudes, the higher the altitude the lower the boiling point of the water will be.]]> 2021-10-19 17:31:53 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828002070 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828002128 The higher the altitude is, the lower the boiling point of water is. This is because of the atmospheric pressures in places iwth different altitudes ]]> 2021-10-19 17:31:54 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828002128 thsinger1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828002740 Q1:The higher the altitude, the lower the boiling point of water is. I think that this occurs because the air pressure in high altitude is less than at lower altitudes which allows the water to boil easier.
Q2: When the water is not boiling, the arrows aren't equal but while the water is boiling, the arrows are equal which demonstrates equilibrium.
Q3: Water boils at a low temperature on Mount Everest because since there is less pressure on the water molecules, it makes it easier for them to evaporate at lower temperatures.]]> 2021-10-19 17:32:08 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828002740 joholmquist https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828002770 The higher the altitude, the lower the temperature needed to boil water. This is due to decreased atmospheric pressure at higher altitudes that change the way molecules move.]]> 2021-10-19 17:32:09 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828002770 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828002920 higher altitude means the water boils at a lower temperature because at different altitudes theres different temperatures.]]> 2021-10-19 17:32:12 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828002920 radiamond https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828003140 Because the pressure changes with altitude, water boils at different temperatures at different altitudes.]]> 2021-10-19 17:32:17 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828003140 hasash1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828005375 2021-10-19 17:33:04 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828005375 sowong https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828005444 As the altitude increases, the boiling point decreases. There is less air pressure at high altitudes meaning less air molecules. Less air molecules give water molecules more space to move around. Since water boils and water molecules move a lot due to heat, the temperature does not need to be as high in order to get the molecules moving a lot, because the increase of space allows the molecules to do so and boil faster. It is also generally more cold in higher altitudes.]]> 2021-10-19 17:33:05 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828005444 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828006077 The relationship between the elevation and boiling point is that the higher the altitude, the lower the boiling point of the water is. That is because of the different pressure in each altitude.]]> 2021-10-19 17:33:20 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828006077 asmajumdar https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828008798 Since the temperature differs at different altitudes, the boiling point varies as well to cope with either the cold weather or the hot weather]]> 2021-10-19 17:34:20 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828008798 chnelson1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828008941 As the altitude increases the water's boiling point decreases. This is because altitude affects the boiling point of water.]]> 2021-10-19 17:34:23 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828008941 mamancini https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828009148 Due to the differences of air pressure at different altitudes, the higher you get the lower the boiling point gets. ]]> 2021-10-19 17:34:28 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828009148 hupirzada https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828010440 If the altitude is increasing that means the boiling point is decreasing. This is because the pressure changes with altitude

]]> 2021-10-19 17:34:56 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828010440 kahannon1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828010868 What do you notice is the relationship between the arrows in the diagram of water at room temperature and water at boiling temperature? ]]> 2021-10-19 17:35:05 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828010868 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828014683 When water is boiling, the length of the 2 arrows is the same representing a equilibrium of pressure.]]> 2021-10-19 17:36:33 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828014683 etstogsdill1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828015574 The two arrows are vapor pressure and atmospheric pressure. The boiling point depends on the pressure which shows that they are in a direct relationship.]]> 2021-10-19 17:36:53 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828015574 hasash1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828015777 the higher the blue arrow goes bubbles form]]> 2021-10-19 17:36:57 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828015777 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828016072 When water is boiling, the length of the two arrows is the same, to represent an equal amount of vapor pressure and atmospheric pressure. ]]> 2021-10-19 17:37:03 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828016072 sowong https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828016865 When water is boiling the atmospheric pressure and vapor pressure is the same. In higher altitudes, the pressure of both the atmosphere and vapor is still the same but there is less pressure.]]> 2021-10-19 17:37:21 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828016865 mecrowe1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828017288 A2) I notice the blue arrow is larger when the water is boiling and the arrow is smaller when it is at room temperature and mount everest. The air pressure arrow seems to stay the same when the water is at sea level however when it is at mount everest the air pressure arrow is smaller. ]]> 2021-10-19 17:37:31 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828017288 raweinberg https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828017580 When water is boiling the arrows are the same length but when it isn't boiling they are different lengths. This represents an equal amount.]]> 2021-10-19 17:37:38 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828017580 thkenna https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828018646 In the picture to the left, there is more atmospheric pressure and vapor pressure of the water than in the picture to the right. Lower pressure also results in lower vapor pressure from the water. In addition, when the water is boiling, there is equal pressure from both the arrows, but when the water is not boiling, the arrows are different lengths. ]]> 2021-10-19 17:38:03 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828018646 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828019487 A2: When water is at room temperature, the blue arrow is shorter than the orange arrow, when the water is boiling, the blue and orange arrows are equal in length to show the relationship between atmospheric pressure and water vapor]]> 2021-10-19 17:38:22 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828019487 kalueckerath https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828019491 The relationship between the arrows is that at different attitudes, the arrows are always in the same spot as the other. This is due to the vapor pressure being equal to the air pressure. ]]> 2021-10-19 17:38:22 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828019491 kahannon1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828019822 Consider, Mt Everest. Why do you think the water boils at a lower temperature at Mt. Everest? ]]> 2021-10-19 17:38:30 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828019822 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828019839 The atmospheric pressure basically matches the vapor pressure, and there is less atmospheric pressure at higher elevations, so when water is boiling at a lower pressure, the atmospheric pressure is lower, and thus the vapor pressure is lower. ]]> 2021-10-19 17:38:30 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828019839 joholmquist https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828020070 When the water is boiling the arrows are equal (vapor pressure and atmospheric pressure). When the water is room temp the blue arrow is lower because the water won't vaporize (turn into gas). Arrows are both low on Mount Everest because there is lower pressure.]]> 2021-10-19 17:38:35 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828020070 hebabowal https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828020723 I notice that the arrows are alot biiger making it more dramatic]]> 2021-10-19 17:38:49 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828020723 radiamond https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828020820 As atmospheric pressure goes in vapor pressure comes out and when the water is boiling the amount of pressure is the same and when the water isn't boiling the amount of pressure is different ]]> 2021-10-19 17:38:51 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828020820 neroy1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828021748 Q2: When water is boiling there is more vapor pressure than when it is not boiling. But, when the elevation increases, the atmospheric pressure decreases, so less vapor pressure is needed for water to boil.]]> 2021-10-19 17:39:13 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828021748 aipanzer1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828021825 The arrows represent vapor pressure and atmospheric pressure. Lower pressure equals also results in lower vapor pressure from the water.]]> 2021-10-19 17:39:14 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828021825 hupirzada https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828022110 The length of the two arrows is the same when the water boiling. This shows a same amount atmospheric pressure]]> 2021-10-19 17:39:20 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828022110 neroy1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828022189 Q3: When the elevation increases, the atmospheric pressure decreases, so less vapor pressure is needed for water to boil.]]> 2021-10-19 17:39:22 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828022189 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828022789 When the water is boiling, the arrows are the same and when the water is at room temperature, they are not the same length. There is more pressure when it is not boiling]]> 2021-10-19 17:39:36 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828022789 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828023151 Since the arrows are equal in length, it represents a equilibrium of pressure. But both arrows have also gotten shorter representing that overall the pressure is much lower which would in turn lead to a lower boiling point.]]> 2021-10-19 17:39:44 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828023151 hasash1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828023286 water boils @ a lower temp on mt Everest b/c its up in the mountains and not below surface]]> 2021-10-19 17:39:47 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828023286 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828023597 The arrows are pretty much the same length which means that the atmospheric pressure basically equals the vapor pressure]]> 2021-10-19 17:39:54 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828023597 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828024968 for the lower pressure (mount Everest) the arrows get shorter indicating its a lower pressure. I think water can boil at a low temperature on mount Everest because the lower the pressure, the easier it is for the water to boil.]]> 2021-10-19 17:40:23 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828024968 asmajumdar https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828025101 Water boils at a low temperature because it takes less vapor and atmospheric pressure to reach boiling point when you're in extremely cold conditions]]> 2021-10-19 17:40:26 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828025101 raweinberg https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828025702 Water boils at a low temperature on Mount Everest because the overall pressure. is lower/has decreased when it is above sea level. ]]> 2021-10-19 17:40:39 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828025702 sowong https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828026037 Based on the picture, water boils at a lower temperature on mount Everest because there is less air pressure on the water, allowing the water molecules to move more freely and boil faster.]]> 2021-10-19 17:40:43 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828026037 kalueckerath https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828026279 The water boils at a lower temperature at Mt. Everest because the air pressure is also lower in that altitude. This is due to vapor pressure being equal to the air pressure and boilng point is similar to the temperature of vapor pressure. ]]> 2021-10-19 17:40:49 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828026279 aipanzer1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828027114 Water boils at a lower temperature on Mount Everest because its altitude is higher meaning the boiling point of water is lower. There is also less air pressure on the water which lets the molecules move faster.]]> 2021-10-19 17:41:06 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828027114 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828027152 I think water boils at a low temp on Mt Everest because the atmospheric and vapor pressure has decreased (yet they remain equal to each other). ]]> 2021-10-19 17:41:07 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828027152 mecrowe1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828027164 Water boils at a low temperature when at a higher elevation because there is less air pressure, making it easier for the water to boil. ]]> 2021-10-19 17:41:08 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828027164 hebabowal https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828027499 I think is boils at a lower temperature because at the higher alititude the water is under more pressure]]> 2021-10-19 17:41:15 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828027499 joholmquist https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828027852 When the altitude is higher, there is less atmospheric pressure so less vapor pressure is needed for water to boil.]]> 2021-10-19 17:41:21 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828027852 radiamond https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828028115 Because there is less air pressure on Mount Everest, water boils at a lower temperature, allowing the water molecules to move more freely and boil faster.]]> 2021-10-19 17:41:26 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828028115 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828028314 Q3: The two arrows are the same length, so it means there is an equal amount of force or distribution of air pressure and water vapor. It also probably means that there's more space for molecules to move around because of this, and therefore it takes less effort/energy to make them move.]]> 2021-10-19 17:41:31 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828028314 chnelson1 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828028456 Water boils at a lower temperature at Mt Everest because of the different atmospheric pressure in the mountains. ]]> 2021-10-19 17:41:33 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828028456 https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828029644 The water boils at a lower temperature in mount Everest due to the altitude. When the altitude increases, the pressure decreases which leads to a lower boiling point because less vapor pressure is needed.]]> 2021-10-19 17:42:00 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828029644 hupirzada https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828031329 Both arrows have turned into a shorter length which means that the pressures much lower which would turn into a low boiling point. ]]> 2021-10-19 17:42:20 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828031329 thkenna https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828031775 I think that water boils at a lower temp at high elevation because there is less pressure applied to the molecules. The more pressure applied, the more energy needed to allow the water to boil. ]]> 2021-10-19 17:42:30 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828031775 mamancini https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828038707 Q2 I notice that when the water is not boiling the two arrows are the different lengths with the vapor pressure being larger, however when the water starts boiling the pressure becomes the same and when on mt Everest they become the same length but they are smaller.
Q3 Water boils at a lower temperature on Mount Everest because the atmosphere does not exert as much pressure on the water making the temperature lesser.]]> 2021-10-19 17:44:52 UTC https://padlet.com/chappaquacsd/ooarvklua4y5spr1/wish/1828038707