An ideal gas initially at pressure P0, volume V0, and temperature T0 is taken through the cycle described in the figure below. (Assume n=4 and m=7). (a) Find the net work done by the gas per cycle in terms of P0 and V0. (Substitute numeric values for n and m, do not use the variables n and m.) Wenv = (b) What is the net energy Q added to the system per cycle? (Use the following as necessary: P0 and V0.) Q = (c) Obtain a numerical value for the net work done per cycle for 1.00 mol of gas initially at 0°C. Hint: Recall that the work done by the system equals the area under a PV curve. In kj.

An ideal gas initially at pressure P0, volume V0, and temperature T0 is taken through the cycle described in the figure below. (Assume n=4 and m=7). (a) Find the net work done by the gas per cycle in terms of P0 and V0. (Substitute numeric values for n and m, do not use the variables n and m.) Wenv = (b) What is the net energy Q added to the system per cycle? (Use the following as necessary: P0 and V0.) Q = (c) Obtain a numerical value for the net work done per cycle for 1.00 mol of gas initially at 0°C. Hint: Recall that the work done by the system equals the area under a PV curve. In kj.

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Question

An ideal gas initially at pressure P₀, volume V₀, and temperature T₀ is taken through the cycle described in the figure below. (Assume n=4 and m=7).

(a) Find the net work done by the gas per cycle in terms of P₀ and V₀. (Substitute numeric values for n and m, do not use the variables n and m.)
W_env =

(b) What is the net energy Q added to the system per cycle? (Use the following as necessary: P₀ and V₀.)
Q =

(c) Obtain a numerical value for the net work done per cycle for 1.00 mol of gas initially at 0°C. Hint: Recall that the work done by the system equals the area under a PV curve. In kj.

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