The initial state of 1.00 mol of a dilute gas is P1 = 3.00 atm, V1 = 1.00 L, and Eint 1 = 456 J and its final state is P2 = 2.00 atm, V2 = 3.00 L, and Eint2 = 912 J. The gas is first cooled at constant volume until it reaches its final pressure. It is then allowed to expand at constant pressure until it reaches its final volume. (a) Illustrate this process on a PV diagram and calculate the work done by the gas. (b) Find the heat absorbed by the gas during this process.

Elements Of Electromagnetics
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The initial state of 1.00 mol of a dilute gas is P1 = 3.00 atm, V1 = 1.00 L, and Eint 1 = 456 J and its final state is P2 = 2.00 atm, V2 = 3.00 L, and Eint2 = 912 J. The gas is first cooled at constant volume until it reaches its final pressure. It is then allowed to expand at constant pressure until it reaches its final volume. (a) Illustrate this process on a PV diagram and calculate the work done by the gas. (b) Find the heat absorbed by the gas during this process.
The initial state of 1.00 mol of a dilute gas is P, = 3.00 atm, V, = 1.00 L, and E¡nt 1 = 456 J and
its final state is P2 = 2.00 atm, V2 = 3.00 L, and Ejnt 2 = 912 J. The gas is first cooled at constant
volume until it reaches its final pressure. It is then allowed to expand at constant pressure until it
reaches its final volume. (a) Illustrate this process on a PV diagram and calculate the work done by
the gas. (b) Find the heat absorbed by the gas during this process.
Transcribed Image Text:The initial state of 1.00 mol of a dilute gas is P, = 3.00 atm, V, = 1.00 L, and E¡nt 1 = 456 J and its final state is P2 = 2.00 atm, V2 = 3.00 L, and Ejnt 2 = 912 J. The gas is first cooled at constant volume until it reaches its final pressure. It is then allowed to expand at constant pressure until it reaches its final volume. (a) Illustrate this process on a PV diagram and calculate the work done by the gas. (b) Find the heat absorbed by the gas during this process.
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