One mole of a monationc ideal gas intially at a pressure of 2.00 bar and a temperature of 300 K is taken to a final pressure of 4.00 bar by a reversible path defined by ` P//V = constant. Taking C_(v)` to be equal to `12.5 J mol ^(-1) K^(-1)` The correct dedution for this process is (are)

One mole of a monatomic ideal gas initially at a pressure of 2.00 bar and a temperature of 273 K is taken to a final pressure of 4.00 bar by a reversible path defined by p//V = constant. Taking C_(V) to be equal to 12.5 K mol^(-1) K^(-1) , the value of (Delta U)/(w) for this process is calculated to be

One mole of a monoatomic ideal gas initially at a pressure of 2.00 bar and a temperature of 273 K is taken to a final pressure of 4.00 bar by a reversible path defined by P//V =constant, the value of DeltaU//w for this process is :

One mole of a monatomic gas at pressure 2 atm ,279 K taken to final pressure 4 atm by a reversible path described by P//V = constant . Calculate the magnitude of (DeltaE)/(w) for the process .

2 mole of a gas at 1 bar and 300 K are compressed at constant temperature by use of a constant pressure of 5 bar. How much work is done on the gas ?

One mole of an ideal monoatomic gas is taken at a temperature of 300 K . Its volume is doubled keeping its pressure constant. Find the change in internal energy.

1 mole of an ideal gas is expanded from an initial pressure of 1 bar to final pressure of 0.1 bar at constant temperature of 273 K. Predict which of the following is not true?

One mole of an ideal monoatomic gas is initially at 300K. Find the final temperature if 200J of heat are added as follows: (a) at constant volume (b) at constant pressure.