A gas within a closed chamber undergoes the cycle shown in the p-V diagram of Fig. 21-26. The horizontal scale is set by `V_s = 8.0 m^3`. Calculate the net energy added to the system as heat during one complete cycle.

An ideal gas undergoes a four step cycle as shown in the P-V diagram below. During this cycle heat is absorbed by the gas in

An ideal monatomic gas is taken round the cycle ABCDA as shown in the P-V diagram. The work time during the cycle is

An ideal gas is taken around ABCA as shown in the p-V diagram (below). The work done during a cycle is

An ideal gas is taken around the cycle ABCA as shown in the P-V diagram. The total work done by the gas during the cycle is

As a gas is held within a closed chamber, it passes through the cycle shown in Fig. 21-27 Determine the energy transferred by the system as heat during constant-pressure process CA if the energy added as heat Q_(AB) during constant-volume process AB is 25.0 J, no energy is transferred as heat during adiabatic process BC and the net work done during the cycle is 15.0 J.

An ideal gas is taken around the cycle ABCD shown in the P_V diagram below. The net work done by the gas during the cycle is equal to

One mole of a mono atomic gas of molar mass M undergoes a cyclic process as shown in the figure. Here rho is density and P is pressure of the gas. (a) Calculate the heat rejected by the gas in one complete cycle. (b) Find the efficiency of the cycle.

An ideal gas is taken around the cycle ABCA shown in P - V diagram. The net work done by the gas during the cycle is equal to

An ideal gas is taken around ABCA as shown in the above P - V diagram. The work done during a cycle is