An Ideal gas under goes a process in which P and V obey pV= constant Bulk modulus of the gas in the process is P/x^n .Find the value of n

A gas undergoes a process in which its pressure P and volume V are related as VP^(n) = constant. The bulk modulus of the gas in the process is:

The isothermal Bulk modulus of an ideal gas at pressure P is

An ideal monatomic gas undergoes process PV^(1.25) = constant .Then

A certain ideal gas undergoes a polytropic process PV^(n) = constant such that the molar specific heat during the process is negative. If the ratio of the specific heats of the gas be gamma , then the range of values of n will be

An ideal has undergoes a polytropic given by equation PV^(n) = constant. If molar heat capacity of gas during this process is arithmetic mean of its molar heat capacity at constant pressure and constant volume then value of n is

An ideal gas undergoes a polytropic process PV^(n)= constant,such that the molar specific heat during "],[" the process is negative.If the ratio of the specific heats of the gases be Y,then the range of value of n will be

A gas follows a process TV^(n-1)=const ant , where T= absolute temperature of the gas and V= volume of the gas. The bulk modulus of the gas in the process is given by

Molar heat capacity of an ideal gas in the process PV^(x) = constant , is given by : C = (R)/(gamma-1) + (R)/(1-x) . An ideal diatomic gas with C_(V) = (5R)/(2) occupies a volume V_(1) at a pressure P_(1) . The gas undergoes a process in which the pressure is proportional to the volume. At the end of the process the rms speed of the gas molecules has doubled from its initial value. Heat supplied to the gas in the given process is :