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 specific heat at constant volume for a gas is 0.075 cal/g and at constant pressure is 0.125 cal/g. Calculate (i) Molecular weight of gas (ii) Atomicity of gas (iii) Number of atoms of gas in its 1 mole

The specific heat at constant volume for a gas is 0.075 cal/g and at constant pressure is 0.125 cal/g. Calculate (i) Molecular weight of gas (ii) Atomicity of gas (iii) Number of atoms of gas in its 1 mole

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

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

The specific heats of an ideal gas at constant volume and constant pressure are respectively 4.98 and 6.96 cal mol^(-1)K^(-1) . If the molecular weight of the gas be 32, then calculate the root-mean square speed of the molecules of the gas at 120^(@)C, (1 cal=4.2J)

The specific heats of a gas are 0.125 and 0.075 cal/g Calculate the atomicity and molecular weight of gas Identify the gas .