The ratio of the specific heats `(C_(p))/(C_(v)) = gamma` in terms of degrees of freedom `(n)` is given by

The ratio of the specific heats (C_(P))/(C_(upsilon)) = gamma in terms of degrees of freedom is given by

If gamma be the ratio of specific heats (C_(p) & C_(v)) for a perfect gas. Find the number of degrees of freedom of a molecules of the gas?

For a gas if ratio of specific heats at constant pressure and volume is g then value of degrees of freedom is

A polytropic process for an ideal gas is represented by equation PV^(n) = constant . If g is ratio of specific heats ((C_(p))/(C_(v))) , then value of n for which molar heat capacity of the process is negative is given as

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

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

Equal volumes of two monoatomic gases, A,B, at the same temperature and pressure are mixed.The ratio of specific heats (C_(p)//C_(v)) of the mixture will be (a)1.50 (b)3.3 (c)1.67 (d)0.83

Two moles of a gas at temperature T and volume V are heated to twice its volume at constant pressure. If (C _(p))/(C _(v)) = gamma then increase in internal energy of the gas is-

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

Mayer's kformula for the relation between two principla specific heats C_(p) "and " C_(V) of a gas is given by