If for a gas (`C_p` / `C_v`) `= 1.67`, this gas is made up to molecules which are

If for a gas R/C_v = 0.67 , this gas is made up of molecules, which are :

An ideal gas (C_p // C_V = (gamma) is taken through a process in which the pressure and the volume vary as P = aV^b . Find the values of (b) for which the specific heat capacity of the gas for the process is zero.

A gas is enclosed in a cylindrical can fitted with a piston. The walls of the can and the piston are adiabatic. The initial pressure , volume and temperature of the gas are 100 kPa, 400cm^(3) and 300K respectively. The ratio of the specific heat capacities of the gas is (C_p / C_v = 1.5) Find the pressure and the temperature of the gas if it is (a) suddenly compressed (b) slowly compressed to 100 cm^(3) .

The ratio (C_p / C_v) for a gas is 1.29 . What is the degree of freedom of the molecules of this gas?

A typical fat molecule is made up of:

The rms speed of oxygen molecules in a gas is v. If the temperature is doubled and the oxygen molecules dissociate into oxygen atoms, the rms speed will become

Conider a given sample of an ideal gas (C_p / C_v = gamma ) having initial pressure (p_0) and volume (V_0) . (a) The gas is isothermally taken to a pressure (P_0 / 2 ) and from there adiabatically ta a pressure (p_0 / 2) and from there isothermally to a pressure (p_0 / 4 ) . find the volume.

The ratio of C_p / C_v = gamma for a gas. It's molecular weight is M. It's specific heat capacity at constant pressure is

The ratio of C_p / C_v = gamma for a gas. It's molecular weight is M. It's specific heat capacity at constant volume is