Calculate `gamma` of a gaseous mixture consisting of 3 moles of nitrogen and 2 moles of carbon dioxide.

Calculate the value of gamma for a gaseous mixture consisting n_(1) moles of oxygen and n_(2) moles of carbon dioxide. The values of gamma for oxygen and carbon dioxide are gamma_(1) and gamma_(2) respectively. Assume the gases to be ideal.

Calculate the value of gamma for a gaseous mixture consisting of n_(1) moles of oxygen and n_(2) moles of carbon of carbon dioxide. The values of gamma for oxygen and carbon dioxide are gamma_(1) and gamma_(2) respectively. Assume the gases to be ideal. [Hint: U_(m) = U_(1) + U_(2) and U = (nRT)/(gamma-1) ]

Calculate the values of gamma = C_p//C_v for a gaseous mixture consisting of v_1 = 2.0 moles of oxygen and v_2 = 3.0 mole of carbon dioxide. The gases are assumed to be ideal.

The value of gamma=C_p/C_v for a gaseous mixture consisting of 2.0 moles of oxygen and 3.0 moles of helium. The gases are assumed to be ideal.

The value of gamma=C_p/C_v for a gaseous mixture consisting of 2.0 moles of oxygen and 3.0 moles of helium. The gases are assumed to be ideal.

Convert into moles: 22g of carbon dioxide.

Considering the gases to be ideal, the value of gamma=(C_(P))/(C_(V)) for a gaseous mixture consisting of = 3 moles of carbon dioxide and 2 moles of oxygen will be (gamma_(O_(2))=1.4,gamma_(CO_(2))=1.3 )

Convert into mole 22g of carbon dioxide.

Convert in to moles: 22 g of carbon dioxide