1. There is heat transfer, but the temperature of the gas does not change (i.e.,Q # 0, AT = 0). . There is no heat transfer, but the temperature of the gas changes (i.e., Q = 0, AT ± 0). 2aub ang no onob Xinw There is no heat transfer, but work is done on the gas (i.e., Q = 0, W # 0). 1. There is heat transfer, but no work is done on the gas (i.e., Q # 0, W = 0). One mole of an ideal gas is confined to a container with a movable piston. The questions below refer to the processes shown on the PV diagram at right. Process I is a change from state X to state Y at constant pressure. Process II is a change from state W to state Z at a different constant pressure. P Process I Y

1a-d please

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For each of the following parts, determine whether there exists an ideal gas process that satisfies the given conditions. If so, describe an experiment (e.g., one involving a cylinder sealed with a movable, frictionless piston) that is consistent with the given conditions. Give an example from tutorial if possible. If not, explain how you know that such a process does not exist. a. There is heat transfer, but the temperature of the gas does not change (i.e., Q # 0, AT = 0). b. There is no heat transfer, but the temperature of the gas changes (i.e., Q = 0, AT ± 0). 2anub ang no onob inwsd c. There is no heat transfer, but work is done on the gas (i.e., Q = 0, W # 0). d. There is heat transfer, but no work is done on the gas (i.e., Q # 0, W = 0). One mole of an ideal gas is confined to a container with a movable piston. The questions below refer to the processes shown on the PV diagram at right. Process I is a change from state X to state Y at constant pressure. Process II is a change from state W to state Z at a different constant pressure. Process I Y