In an adiabatic process, the volume is doubled. Find the ratio of final average relaxation time and initial relaxation time. Given Cp/CV=Y

In an adiabatic process, volume is doubled then find the ratio of final average relaxation time & initial relaxation time. Given C_p/C_v = gamma

The volume of an ideal gas (gamma 1.5 ) is changed adiabatically from 4.00 liters to 3.00 liters . Find the ratio of (a) the final pressure to the initial pressure and (b) the final temperature to the initial temperature.

If the mass of each molecule of a gas is halved and speed is doubled. Find the ratio of initial and final pressure.

Resistivity of a material of conductor in terms of relaxation time is given by

A gas is compressed adiabatically till its temperature is doubled. The ratio of its final volume to initial volume will be

A volume of gas at 15^(@)C expands adiabatically until its volume is doubled. Find the resultant temperture given that the ratio of specific heat capacity of the gas =1.4 .

During an adiabatic process, the pressure of a gas is found to be proportional to the cube of its absolute temperature. The ratio C_P//C_V for the gas is

One mole of a perfect gas, initally at a pressure and temperature of 10^(5) N//m^(2) and 300 K, respectively, expands isothermally unitl its volume is doubled and then adiabatically until its volume is again doubled. Find final pressure and temperature of the gas Find the total work done during the isothermal and adiabatic processes. Given gamma = 1.4 . Also draw the P-V diagram for the process.

A monoatomic ideal gas is expanded adiabatically to n times of its initial volume. The ratio of final rate of collision of molecules with unit area of container walls to the initial rate will be

The volume of an ideal diatomic gas with gamma = 1.5 is changed adiabatically from 16 litre to 12 litre. Find the ratio of the final and initial pressures and temperatures.