For an ideal gas `C_(p) and C_(v)` are related as

What is an ideal gas ?

For an ideal gas (C_(p,m))/(C_(v,m))=gamma . The molecular mass of the gas is M, its specific heat capacity at constant volume is :

1 mole of an ideal gas A(C_(v.m)=3R) and 2 mole of an ideal gas B are ((C_(v,m)=(3)/(2)R) taken in a container and expanded reversible and adiabatically from 1 litre of 4 letre starting from initial temperature of 320 K. DeltaE or DeltaU for the process is :

If one mole of an ideal gas (C_(p.m.)=(5)/(2)R) is expanded isothermally at 300K until it’s volume is tripled, then change in entropy of gas is:

When two moles of an ideal gas (C_(p.m.)=(5)/(2)R) heated form 300K to 600K at constant pressure, the change in entropy of gas (DeltaS) is:

For an ideal gas V - T curves at constant pressure P_(1) & P_(2) are shown in figure, from the figure

Calculate gamma (ratio of C_(p) and C_(v) ) for triatomic linear gas at high temperature. Assume that the contribution of vibrational degree of freedom is 75% :

If one mole of an ideal gas C_p = 5/2 R is expanded isothermally at 300 k until it's volume is tripled., if expansion is carried out freely (P_(ext)=0), then DeltaS is :

For two mole of an ideal gas :