`C_(v) and C_(p)` denote the molar specific heat capacities of a gas at constant volume and constant volume and constant pressure, respectively. Then,

Define specific heat of a gas at constant volume and that at constant pressure.

What do you understand by the molar specific heat of a gas at constant volume and constant pressure?

Show that the specific heat of a gas at constant pressure is greater than that at constant volume.

The heat absorbed in a reaction at constant temperature and constant volume is

What is the value of volume coefficient at constant pressure?

The specific heat capacities of hydrogen at constant volume and at constant pressure are 2.4 cal/gm ^@C and 3.4 cal/gm ^@C respectively. The molecular weight of hydrogen is 2 gm/mole and the gas constant R=8.3xx10^7 erg/mole ^@C . Calculate the value of J.

Prove that C_(p) - C_(v) = R , where C_(p) and C_(v) are the molar specific heats at constant pressure and constant volume respectively and R is the universal gas constant.

Molar heat capacity of a substance at constant pressure is ______than that at constant volume.

Which is greater - specific heat at constant volume, C_(v) or specific heat at constant pressure, C_(p) ?

Why is the molar heat capacity at constant pressure greater than that at constant volume for gases?