Two closed vessel A and B of equal volume containing air at pressure `P_(1)` and temperature `T_(1)` are connected to each other through a naroow open tube. If th temperature of one is now maintained at `T_(1)` and other at `T_(2)` (wehre `T_(1) gt T_(2)` ) then that what will be the final pressure ?

Two closed vessels of equal volume containing air at pressure P_(1) and temperature T_(1) are connected to each other through a narrow tube. If the temperature in one of the vessels is now maintained at T_(1) and that in the other at T_(2) , what will be the pressure in the vessels?

Two closed vessels of equal volume containing air at pressure P_(1) and temperature T_(1) are connected to each other through a narrow tube. If the temperature in one of the vessels is now maintained at T_(1) and that in the other at T_(2) , what will be the pressure in the vessels?

Two closed bulbs of equal volume (V) containing an ideal gas initially at pressure P_(i) and temperature T_(1) are connected through a narrow tube of negligible volume as shown in the figure below . The temperature of one of the bulbs is then raised to T_(2) . the final pressure Pf is

A closed vessel A having volume V contains N_(2) at pressure P and temperature T. another closed vessel B having the same volume V contains. He at the same pressure P. but temperature 2T. The ratio of masses of N_(2) and He in the vesses A and B is

Gaseous system is placed with pressure P_(1) , volume V_(1) and temperature T_(1) , it has undergone thermodynamic changes where temperature is remaining constant, it is

Two containers of equal volume contain the same gas at pressure P_(1) and P_(2) and absolute temperature T_(1) and T_(2) , respectively. On joining the vessels, the gas reaches a common pressure P and common temperature T . The ratio P//T is equal to

Two containers of equal volume contain the same gas at pressure P_(1) and P_(2) and absolute temperature T_(1) and T_(2) , respectively. On joining the vessels, the gas reaches a common pressure P and common temperature T . The ratio P//T is equal to

Two adiabatic containers have volumes V_(1) and V_(2) respectively. The first container has monoatomic gas at pressure p_(1) and temperature T_(1) . The second container has another monoatomic gas at pressure p_(2) and temperature T_(2) . When the two containers are connected by a narrow tube, the final temperature and pressure of the gases in the containers are P and T respectively. Then

Two cylienders fitted with pistons and placed as shown, connected with string through a small tube of negligible volume, are filled with gas at pressure P_(0) and temperature T_(0) . The radius of smaller cylinder is half of the other. If the temperature is increased to 2 T_(0) , find the pressure if the piston of bigger cylinder moves towards left by 1 metre ?

Two idential container joined by a small pipe initially contain the same gas at pressure p_(0) and absolute temperature T_(0) . One container is now maintained at the same temperature while the other is heated to 2T_(0) . The common pressure of the gas