The pressure P and volume V of a gas are related as `PV^(3//2)=K` where K is a constant. The percentage increase in the pressure for a diminution of `0.5%` of the volume is

The pressure p and the volume V of a gas are connected by the relation pV^(1//4)=a (constant). Find percentage increaase in pressure corresponding to a decrease of ((1)/(2))% in volume.

When a gas is heated in a vessel of constant volume , the pressure increases because

The relation between internal energy U , pressure P and volume V of a gas in an adiabatic processes is : U = a+ bPV where a = b = 3 . Calculate the greatest integer of the ratio of specific heats [gamma] .

Pressure P = FK where F is force, obtain dimension of K.

Calculate the work done when one mole of a perfect gas is compressed adiabatically. The initial pressure and volume of the gas are 10^5 N//m^2 and 6 litres respectively. The final volume of the gas are 2 litre . Molar specific heat of the gas at constant volume is 3R//2 .

The pressure (P) and absolute temperature (T) of an ideal gas are related to each other as Pprop(1)/(T^(2)) . If temperature of gas is 300 K and its volume changes from V to 8 V, then find the final temperature of gas.

For a certain process pressure of diatomic gas varies according to the relation P=aV^(2) , where a is constant. What is the molar heat capacity of the gas for this process?

An ideal gas under goes a quasi static, reversible process in which its molar heat capacity C remains constant. If during this process the relation of pressure P and volume V is given by PV^n=constant , then n is given by (Here C_P and C_V are molar specific heat at constant pressure and constant volume, respectively):