4 moles of `H_(2)` at 500 K is mixed with 2 moles of He at 400 K. The mixture attains a temperature T and volume V. Now the mixture is compressed adiabatically to a volume V' and temperature T'. If `(T')/T=(V/(V'))^(n)`, find the value of 26 n.

4 moles of H_(2) at 500K is mixed with 2 moles of He at 400k . The mixture attains a temperature T and volume V . Now the mixture is compressed adiabatically to a volume V' and temperature T' . If (T')/(T) = ((V)/(V'))^(n) , find the value of 13n .

Two mole of Hydrogen and three mole of Helium are mixed at room temperature and at atmospheric pressure P_a and the mixture occupies a volume V.

Two moles of an ideal monoatomic gas occupy a volume 2V at temperature 300K, it expands to a volume 4V adiabatically, then the final temperature of gas is

Monoatomic gas A having 5 mole is mixed with diatomic gas B having 1 mole in container of volume V_(0) . Now the volume of mixture is compressed to (V_(0))/(4) by adiabatic process. Initial pressure and temperature of ags mixture is P_(0) and T_(0) . [given 2^(3.2)=9.2 ] Choose correct option :

2 mole ideal He gas and 3 mole ideal H_(2) gas at constant volume find out C_(v) of mixture

During an experiment an ideal gas is found to obey an additional law V_(2)P = constant. The gas is initially at temperature T and volume V. When it expands to a volume 2V, the temperature becomes :

Two gases A and B having the same temperature T, same pressure P and same volume V are mixed. If the mixture is at the same temperature and occupies a volume V. The pressure of the mixture is