The relation between internal energy U, pressure P and volume V of a gas in an adiabatic process is U= a + bPV, where a and b are positive constants. What is the value of `gamma` ?

The relation between internal energy U , pressure P and volume V of a gas in an adiabatic process is U = a + bPV where a and b are constants. What is the effective value of adiabatic constant gamma ?

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] .

The relation between the internal energy U adiabatic constant gamma is

The relation between the internal energy (U) versus temeperature (T) for a 3 mole ideal gas in an isochoric process is given as U=alpha+betaT where alpha and beta are constant. If the specific heat capacity of the gas for above process is (beta)/(m) find the value of m.

Write the relation between pressure and volume for an adiabatic change in an ideal gas.

Show how internal energy U varies with T in isochoric, isobaric and adiabatic process?

The relation between U, p and V for an ideal gas in an adiabatic process is given by relation U=a+bpV . Find the value of adiabatic exponent (gamma) of this gas.

Relation between pressure (p) and energy (E) of a gas is

What do you mean by internal energy (U) of a gas ?

The relation between U, P and V for an iodeal gas is U=2+3PV. What is the atomicity of the gas.