conserve no of moles
n1=p1v1/Rt1
n2=P2v2/Rt2
nw finally no of moles will b same
so
n1+n2=p1v1/Rt1 +p2v2/Rt2
P(v1+v2)/RT =p1v1/Rt1+p2v2/Rt2
u get d asnwer
wer P is d final pressure n T is final temp .....
Q. 4. An insulated container of gas has two chambers separated by an insulating partition. One of the chambers has volume V1 and contains ideal gas at pressure P1 and temperature T1. The other chamber has volume V2 and contains ideal gas at pressure P2 and temperature T2. If the partition is removed without doing any work on the gas, the final equilibrium temperature of the gas in the container will be
conserve no of moles
n1=p1v1/Rt1
n2=P2v2/Rt2
nw finally no of moles will b same
so
n1+n2=p1v1/Rt1 +p2v2/Rt2
P(v1+v2)/RT =p1v1/Rt1+p2v2/Rt2
u get d asnwer
wer P is d final pressure n T is final temp .....