A diatomic ideal gas is heated at constant volume until its pressure becomes three times. It is again heated at constant pressure until its volume is doubled. Find the molar heat capacity for the whole process.

A monatomic ideal gas is heated at constant volume until its pressure is doubled. It is again heated at constant pressure, until its volume is doubled. Find molar specific heat for the whole process.

A diatomic ideal gas is heated at constant volume until the pressure is doubled and again heated at constant pressure until the volume is doubled. The average molar heat capacity for the whole process is

A diatomic ideal gas is heated at constant at constant volume until the pressure is doubled and again heated of constant pressure until the volume is doubled. The average molar heat capacity for the whole process is

A diatomic ideal gas is heated at constant at constant volume until the pressure is doubled and again heated of constant pressure until the volume is doubled. The average molar heat capacity for the whole process is

If an ideal gas is heated at constant pressure :

If a gas is heated at constant pressure, its isothermal compressibility

When a gas is heated in a vessel of constant volume , the pressure increases because

Figure shows a process on a gas in which pressure and volume both change. The molar heat capacity for this process is C.

Heat supplied to an ideal gas sample at constant Pressure :

An ideal gas having molar specific heat capaicty at constatnt volume is 3/2 R, the molar specific heat capacities at constant pressure is