A vessel has 6g of hydrogen at pressure P and temperature 500K. A small hole is made in it so that hydrogen leaks out. How much hydrogen leaks out if the final pressure is P/2 and temperature falls to 300K

A vessel has 6gm of oxygen at pressure P and temperature 400 K.A small hole is made in it so that oxygen leaks out. How much oxygen leaks out if the final pressure is (P)/(2) and temperauture 300 K ?

A vessel having certain amount of oxygen at certain pressure and temperature develops a very small hole and 4 g of oxygen effuses out. How much hydrogen would have effused out of the same vessel had it been taken at the same pressure and temperature.

A vessel containing 1 g of oxygen at a pressure of 10 atm a temperature of 47^(@)C . It is found that because of a leak, the pressure drops to 5//8th of its original value and the temperature falls to 27^(@)C . Find the volume of the vessel and the mass of oxygen that is leaked out.

A vessel containing 1 g of oxygen at a pressure of 10 atm a temperature of 47^(@)C . It is found that because of a leak, the pressure drops to 5//8th of its original value and the temperature falls to 27^(@)C . Find the volume of the vessel and the mass of oxygen that is leaked out.

Oxygen is filled in a closed metal jar of volume 1.0xx10^(-3)m^(3) at a pressure of 1.5xx10^(5)Pa. and temperature 400K.The jar has a small leak in it. The atmospheric pressure is 1.0xx10^(5) Pa and the atmospheric temperature is 300K. Find the mass of the gas that leaks out by time the pressure and the temperature inside the jar equlise with the surrounding.

An ideal gas is enclosed in a cylinder at pressure of 2atm and temperature, 300K. The mean time between two successive collisions is 6xx10^(-8) s. If the pressure is doubled and temperature is increased to 500K, the mean time between two successive collisions will be close to:

4.0g of argon gas has pressure P and temperature TK in a vessel. On keeping the vessel at 50^@C higher, 0.8g of argon was given out to maintain the pressure at P. The original temperature was ____ xx 10^(-2) K .

An ideal gas at pressure 2.5 xx 10^(5) pa and temperature 300k occupies 100 cc. It is adiabatically compressed to half its original volume. Calculate (a) the final pressure, (b) the final temperature and ( c) the work done by the gas in the process. Take (gamma = 1.5) .

300K a gas (gamma = 5//3) is compressed adiabatically so that its pressure becomes 1//8 of the original pressure. The final temperature of the gas is :

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 ?