One mole of a diatomic gas is taken through the process P/T^(n)=C,where n and C are constant.If the heat capacity of gas is C=-R/2, then value of n is

One mole of a diatomic gas is taken through the process P/T^(n)=K where n and K are constants.If the molar specific heat of the gas is C=-R/2 then the value of n is

One mole of an ideal monatomic gas undergoes the process P=alphaT^(1//2) , where alpha is constant . If molar heat capacity of the gas is betaR1 when R = gas constant then find the value of beta .

One mole of a monoatomic ideal gas is expanded by a process described by PV^(3) = C where C is a constant. The heat capacity of the gas during the process is given by (R is the gas constant)

One mole of an ideal diatomic gas is taken through a process whose P-V diagram is shown in the figure. The work done by the gas is

An ideal monoatomic gas is taken through a process PV^(a) = const. The value of 'a' for whichspecific heat capacity of the gas is zero is :-

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

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 is taken through a process in which pressure and volume vary as P = kV^(2) . Show that the molar heat capacity of the gas for the process is given by C = C_(v) +(R )/(3) .

An ideal gas is taken through a process PT^3 = constant . The coefficient of thermal expansion of the gas in the given process in n/T. Find n.