An insulated container of gas has two chambers separated by an insulating partition. One of the chambers has volume `V_1` and contains ideal gas at pressure `P_1` and temperature `T_1`.The other chamber has volume `V_2` and contains ideal gas at pressure `P_2` and temperature `T_2`. If the partition is removed without doing any work on the gas, the final equilibrium temperature of the gas in the container will be
A. `(T_(1)T_(2)(P_(1)V_(1) + P_(2)V_(2)))/(P_(1)V_(1)T_(2) + P_(2)V_(2)T_(1))`
B. `(P_(1)V_(1)T_(1) + P_(2)V_(2)T_(2))/(P_(1)V_(1) + P_(2)V_(2))`
C. `(P_(1)V_(1) T_(2) + P_(2) V_(2)T_(1))/(P_(1)V_(1) + P_(2)V_(2))`
D. `(T_(1)T_(2) (P_(1)V_(1) + P_(2)V_(2)))/(P_(1)V_(1) T_(1) + P_(2)V_(2)T_(2))`