The ratio of work done by an ideal diatomic gas to the heat supplied by the gas in an isobatic process is

If heat is supplied to an ideal gas in an isothermal process.

The molar heat capacity for an ideal monatomic gas is 3R.If dQ is the heat supplied to the gas and dU is the change in its internal energy then for the process the ratio of work done by the gas and heat supplied is equal to

When heat is supplied to an ideal gas in isothermal process, the

graph of an ideal gas is as shown in figure. Heat is supplied to the gas in process (s).

A diatomic gas does 100 J of work when it is expanded isobarically. The heat given to the gas during this process is

A diatomic gas does 80 J of work when expanded isobarically. The heat given to the gas during this process is

An ideal diatomic gas occupies a volume V_1 at a pressure P_1 The gas undergoes a process in which the pressure is proportional to the volume . At the end of process the root mean square speed of the gas molecules has doubled From its initial value then the heat supplied to the gas in the given process is

Calculate work done is process BC for 1 mol of an ideal gas if total 600 cal heat is released by the gas is whole process

What will be the work done in process CB for 1 mol of an ideal gas if total 600 call heat is released by the gas in whole process.