istants Periodic Table An ideal gas is confined within a thermally isolated cylinder. It consists of N atoms initially at a pressure of po. A movable piston seals the right end of the cylinder, as shown in the figure. (Figure 1)A given amount of heat Q is slowly added to the gas, while the piston allows the gas to expand in such a way that the gas's temperature remains constant at To. Correct Part D The (Kelvin-Planck statement of the) second law of thermodynamics reads as follows: It is impossible for an engine working in a cycle to produce no other effect than that of extracting heat from a reservoir and performing an equivalent amount of work. The phrase "in a cycle" does not apply in this situation, so the second law does not forbid heat being converted entirely into work. For this particular problem, is all of the heat energy absorbed by the gas in fact turned into work done on the piston? Figure 1 of 1 > View Available Hint(s) O yes O no To Submit Po Piston moves Part E

need help with part D

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onstantS Periodic Table An ideal gas is confined within a thermally isolated cylinder. It consists of N atoms initially at a pressure of po. A movable piston seals the right end of the cylinder, as shown in the figure. (Figure 1)A given amount of heat Q is slowly added to the gas, while the piston allows the gas to expand in such a way that the gas's temperature remains constant at To. Correct Part D The (Kelvin-Planck statement of the) second law of thermodynamics reads as follows: It is impossible for an engine working in a cycle to produce no other effect than that of extracting heat from a reservoir and performing an equivalent amount of work. The phrase "in a cycle" does not apply in this situation, so the second law does not forbid heat being converted entirely into work. For this particular problem, is all of the heat energy absorbed by the gas in fact turned into work done on the piston? Figure 1 of 1 • View Available Hint(s) yes no To Submit Po Piston moves ▼ Part E Does the magnitude of the force that the gas exerts on the piston depend on the piston's area?