A gaseous mixture enclosed in a vessel consists of one gram mole of a gas A with `gamma=(5/3)` and some amount of gas B with `gamma=7/5` at a temperature T.
The gases A and B do not react with each other and are assumed to be ideal. Find the number of gram moles of the gas B if `gamma` for the gaseous mixture is `(19/13)`.

A gaseous mixture enclosed in a vessel of volume V consists of one mole of a gas A with gamma=(C_p//C_v)=5//3 and another gas B with gamma=7//5 at a certain temperature T. The relative molar masses of the gasses A and B are 4 and 32, respectively. The gases A and B do not react with each other and are assumed to be ideal. The gaseous mixture follows the equation PV^(19//13)=constant , in adiabatic processes. (a) Find the number of moles of the gas B in the gaseous mixture. (b) Compute the speed of sound in the gaseous mixture at T=300K . (c) If T is raised by 1K from 300K, find the % change in the speed of sound in the gaseous mixture. (d) The mixtrue is compressed adiabatically to 1//5 of its initial volume V. Find the change in its adaibatic compressibility in terms of the given quantities.

A gaseous mixture enclosed in a vessel of volume V consists of one mole of gas A with gamma = (C_(P))/(C_(V)) = (5)/(3) an another gas B with gamma = (7)/(5) at a certain temperature T . The gram molecular weights of the gases A and B are 4 and 32 respectively. The gases A and B do not react with each other and are assumed to be ideal. The gaseous mixture follows the equation PV^(19//13) = constant , in adiabatic process. Find the number of moles of the gas B in the gaseous mixture.

1 mole of a gas with gamma=7//5 is mixed with 1 mole of a gas with gamma=5//3 , then the value of gamma for the resulting mixture is

When 1 mole of monoatomic gas is mixed with 2 moles of diatomic gas, then find gamma for the mixture of gases.

If one mole of a monatomic gas (gamma=5/3) is mixed with one mole of a diatomic gas (gamma=7/5), the value of gamma for mixture is

If one mole of a monatomic gas (gamma=5/3) is mixed with one mole of a diatomic gas (gamma=7/5), the value of gamma for mixture is

A gas mixture consists of 3 moles of oxygen and 5 moles of argon at temperature T . Assuming the gases to be ideal and the oxygen bond to be rigid, the total internal energy ( in units of RT ) of the mixture is :

Two moles on ideal gas with gamma=5/3 is mixed with 3 moles of another ideal non reacting gas with gamma=7/5 .The value of (C_p)/(C_v) for the gasous mixture is closer to :

Three moles of an ideal gas having gamma = 1.67 are mixed with 2 moles of another ideal gas having gamma = 1.4 . Find the equivalent value of gamma for the mixture.

5 n , n and 5 n moles of a monoatomic , diatomic and non-linear polyatomic gases (which do not react chemically with each other ) are mixed at room temperature . The equivalent degree of freedom for the mixture is :-