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 :

Two moles of an ideal gas with (C_(P))/(C_(V))= (5)/(3) are mixed with 3 moles of another ideal gas with (C_(P))/(C_(V))= (4)/(3) . The value of (C_(P))/(C_(V)) for the mixture is

Two moles of an ideal gas with (C_(P))/(C_(V))= (5)/(3) are mixed with 3 moles of another ideal gas with (C_(P))/(C_(V))= (4)/(3) . The value of (C_(P))/(C_(V)) for the mixture is

1 mol of an ideal monatomic gas (gamma=5/3) is mixed with 1 mol of an ideal diatomic gas (gamma=7/5) . Find the value of gamma for the mixture.

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.

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.

Two moles the an ideal gas with C_(v) = (3)/(2)R are mixed with 3 of anthoer ideal gas with C_(v) = (5)/(2) R . The value of the C_(p) for the mixture is :

Two moles the an ideal gas with C_(v) = (3)/(2)R are mixed with 3 of anthoer ideal gas with C_(v) = (5)/(2) R . The value of the C_(p) for the mixture is :

Two moles the an ideal gas with C_(v) = (3)/(2)R are mixed with 3 of anthoer ideal gas with C_(v) = (5)/(2) R . The value of the C_(p) for the mixture is :

4 mol of an ideal gas having (gamma = 1.67) are mixed with 2 mol of another ideal gas having (gamma =1.4). Find the equivalent value of gamma for the mixture.