a) When gaseous water condenses, KMT tells us that the intermolecular attractions cause the slowest of the molecules to aggregate into microdroplets and then into a bulk liquid. Select the statement that is true for this phase change. [ Select ] the temperature of the sample, and thus its average Ek, increases the temperature of the sample, and thus its average Ek, is constant the temperature of the sample is directly proportional to the intermolecular attractions. the temperature of the sample descends as the volume of condensed water increases Phase chang b) Within a associated v b) Within a phase, heat flow is accompanied by a change in temperature, which is associated with a change in average Ek, as the most probable speed of the molecules changes. Select the statement that is true within the phase. /(Select] the molar heat capacity for that phase will change as temperature changes the heat released or absorbed is independent on the amount of substance the heat released or absorbed depends on the amount of substance and the change in temperature more heat will be absorbed as the temperature and molecular movement decreases

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a) When gaseous water condenses, KMT tells us that the intermolecular attractions cause the slowest of the molecules to aggregate into microdroplets and then into a bulk liquid. Select the statement that is true for this phase change. Phase chang V [Select ] the temperature of the sample, and thus its average Ek, increases the temperature of the sample, and thus its average Ek, is constant the temperature of the sample is directly proportional to the intermolecular attractions. the temperature of the sample descends as the volume of condensed water increases b) Within a associated v b) Within a phase, heat flow is accompanied by a change in temperature, which is associated with a change in average Ek, as the most probable speed of the molecules changes. Select the statement that is true within the phase. V (Select] the molar heat capacity for that phase will change as temperature changes the heat released or absorbed is independent on the amount of substance the heat released or absorbed depends on the amount of substance and the change in temperature more heat will be absorbed as the temperature and molecular movement decreases