An ideal monatomic gas expands isobarically from state A to state B. It is then compressed isothermally from state B to state C and finally cooled at constant volume until it returns to its initial state A.

How much work is done on the gas in going from B to C?

An ideal monatomic gas expands isobarically from state A to state B. It is then compressed isothermally from state B to state C and finally cooled at constant volume until it returns to its initial state A. How much work is done by the gas in expanding isobarically from A to B?

An ideal monatomic gas expands isobarically from state A to state B. It is then compressed isothermally from state B to state C and finally cooled at constant volume until it returns to its initial state A. What is the temperature of the gas when it is in state B?

In a change from state A to state B

One mole of monatomic gas is brought from state A to state B. The initial temperature at A is T_(0) . The temperature at B will be –

One mole of a gas is carried through the cycle shown in Fig. The gas expands at constant temperature T from volume V to 2V . It is them compressed to the initial volume at constant pressure and is finally brought back to its original state by heating at constant volume. Calculate the work done by the gas in complete cycle.

An ideal gas change from state a to state b as shown in Fig. what is the work done by the gas in the process?

If a system undergoes an adiabatic change from state 1 to state 2, the work done by the gas is: