A vessel of volume `5000 cm^3` contains `(1/20)` moles of molecular nitrogen at 1800K. If `30%` of the molecules are now dissociated the pressure inside the vessel (in Pa) will be

A vessel of volume 5 litres contains 1.4 g of N_2 and 0.4 g of He at 1500 K . If 30 % of the nitrogen molecules are dissociated into atoms then find the gas pressure.

A vessel of volume V = 5 litre contains 1.4 g nitrogen and 0.4g of He at 1500K . If 30% of the nitrogen molecules are disassociated into atoms then the gas pressure becomes (N)/(8)xx10^(5)N//m^(2) . Find N (Assume T constant). [R = (25)/(3)J//molK]

A vessel of volume 2000cm^(3) contains 0.1mol of oxygen and 0.2mol of carbon dioxide. If the temperature of the mixture is 300K, find its pressure.

A closed vessel contains equal number of nitrogen and oxygen molecules at pressure of P mm . If nitrogen is removed from the system, then the pressure will be:

A vessel of capacity 10 litres contains 0.5 moles of CO_(2) , 1.3 moles ofnitrogen and 0.20 mole of oxygen at 30^(@)C . Assuming the gases to be ideal, find the pressure of the mixture , R = 8.31 J m o l^(-1) K^(-1) .

A vessel of capacity 600 cm contains hydrogen A vessel of capacity 600 cm^3 contains hydrogen be the pressure of hydrogen gas, when the vessel is connected to another vessel of 300 cm^3

Solve A vessel contains X number of molecules of hydrogen gas at a certain temperature and pressure. How many molecules of nitrogen gas would be present in the same vessel under the same conditions of temperature and 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?

A closed vessel of fixed volume contains a mass m of an ideal gas, the root mean square speed being v. Additional mass m of the same gas is pumped into the vessel and the pressure rises to 2P, the temperature remaining the same as before. The root mean square speed of the molecules now is :