The mass of a gas molecule can be computed form the specific heat at constant volume. Take `C_(V) = 0.075 kcal kg^(-1) k^(-1)` for argon and calculate
a. the mass of an argon atom
b. the atomic weight of argon.

The mass of a gas molecule can be computed from its specific heat at constant volume c_V . (Note that this is not C_V ) Take c_v = 0.1476 cal//g^@ C for neon and calculate (a) the mass of a neon atom and (b) the molar mass of neon.

The mass of a gas molecule can be computed form the specific heat at constant volume. Cv for argon is 0.15 Kcal//kg-k . The molecular weight of an argon atom is (approximately) (R = 2 cal//mol-K)

The mass of a gas molecule can be computed form the specific heat at constant volume. Cv for argon is 0.15 Kcal//kg-k . The molecular weight of an argon atom is (approximately) (R = 2 cal//mol-K)

The specific heat of argon at constant volume is 0.075 kcal kg^(-1) K^(-1) . Calculate its atomic weight. Take R = 2 cal mol^(-1) K^(-1) .

The specific heat of argon at constant valume is 0.075 kcal kg^(-1) K^(-1) . Calculate its atomic weight. Take R = 2 cal mol^(-1) K^(-1) .

The specific heat at constant volume for a gas is 0.075 cal/g and at constant pressure it is 0.125 cal/g. Calculate, (i) the molecular weight of gas, (ii). Atomicity of gas.

The mass of a helium atom is 6.66× 10^-27 kg. Compute the specific heat at constant volume for helium gas (in J/kg.K) from the molar heat capacity at constant volume.

The specific heat at constant volume and constant pressure for a gas are 0.075 and 0.125 cal/g respectively. The molecular weight and atomicity of the gas is