Equal volume of mono atomic and diatomic gases of same initial temperature and mixed. Final the ratio of the specific heats of the mixture.

Equal volumes of two monoatomic gases, A and B, at same temperature and pressure are mixed. The ratio of specific heals (C_p / C_v) of the mixture will be

Find the ratio of two molar specific heats for a diatomic gas .

Temperature of two liquids are 80^(@)C and 20^(@)C . When they are mixed in the mass ratio of 8:5 , the temperature of the mixture becomes 60^(@)C . Find the ratio of their specific heats.

Equal number of molecules of an ideal monatomic and an ideal diatomic gas are at the same temperature. Which gas will be more heated if equal amount of heat is supplied from outside?

When a block of metal of specific heat "0.1 cal.g"^(-1).^(@)C^(-1) and weighing 110 g is heated to 100^(@)C and then quickly transferred to a calorimeter containing 200 g of a liquid at 10^(@)C , the resulting temperature is 18^(@)C . On repeating the experiment with 400 g of same liquid in the same calorimeter at same initial temperature, the resulting temperature is 14.5^(@)C . Find the specific heat of the liquid .

Show that, ratio of the masses of equal volumes of two gases at the same temperature and pressure is equal to the ratio of their molecular masses.

The molar specific heat capacity at constant volume of a mono atomic gas is (3//2) R, where R is universal gas constant. Find the value of molar specific heat capacity of the gas at constant pressure.