7 moles of a tetra-atomic non-linear gas 'A' at 10 atm and T K are mixed with 6 moles of another gas B at `(T)/(3)K` and 5 atm in a closed, rigid vessel without energy transfer with surroundings. If final temperature of mixture was `(5T)/(6) K,` then gas B is ? (Assuming all modes of energy are active)

If 4 moles of an ideal monoatomic gas at temperature 400 K is mixed with 2 mole of another ideal monoatomic gas at temperature 700 K, the temperature of the mixture is

One mole of an ideal monoatomic gas at temperature T and volume 1L expands to 2L against a constant external pressure of one atm under adiabatic conditions, then final temperature of gas will be:

Two cylinder A and B fitted with pistons contain equal number of moles of an ideal monoatomic gas at 400 K . The piston of A is free to move while that of B is held fixed . Same amount of heat energy is given to the gas in each cylinder . If the rise in temperature of the gas in A is 42 K, the rise in temperature of the gas in B is

'X’ moles of N_2 gas at S.T.P. conditions occupy a volume of 10 litres, then the volume of ‘2x’ moles of CH_4 at 273^@C and 1.5 atm is

The mean translational kinetic energy of a molecule of an ideal gas at temperature T K is

One mole of an ideal gas at an initial temperature of TK does 6R joules of work adiabatically. If the ratio of specific hats of this gas a constant pressure and at constant volume is 5/3, the final temperature (T_f) of gas will be :