A spherical vessel of radius r = 5 cm contains hydrogen `(H_2)` at a temperature T=300 K and pressure`p =10^5` Pa. How many molecules collide on the vessel in 1 s ?

A closed vessel of volume 0.2 m^3 contain hydrogen gas at temperature 300 k and pressure 10^5 Pa. Then the heat required to raise temperature to 600 K is (Molar heat capacity of hydrogen at constant volume is 5cal/mol-K)

A vessel of volume 0.2 m^(3) contains hydrogen gas at temperature 300 K and pressure 1 bar. Find the heat required to raise the temperature to 400 K. The molar heat capacity of hydrogen at constant volume is 5 cal//mol K .

A vessel of volume , V = 5.0 litre contains 1.4 g of nitrogen at a temperature T = 1800 K . Find the pressure of the gas if 30% of its molecules are dissociated into atoms into atmos at this temperature.

1L of a gas is at a pressure of 10^(-6) mm of Hg at 25^(@)C . How many molecules are present in the vessel.

A vessel contains 0.5 m^3 of hydrogen gas at 300 K and pressure 10^5 Pa. How much heat should be added to it to raise the temperature to 500 K ? Molar specific heat of hydrogen is 5 cal/mol K:

A vessel of volume 5 litre contains 1.4 g of nitrogen at a temperature 1800K. The pressure of the gas is 30% of its molecules are dissociated into atoms at this temperature is:

A cubical vessel of side 1 m contains one mole of nitrogen at a temperature of 300 K. If the molecuels are assuming to move with the rms velocity find the number of collisions per second which the molecules may make with the wall of the vessel

One mole of a certain gas is contained in a vessel of volume V = 0.250 1 . At a temperature T_1 = 300 K the gas pressure is p_1 = 90 atm , and at a temperature T_2 = 350 K the pressure is p_2 = 110 atm . Find the Van der Walls parameters for this gas

Two identical vessels are connected by a tube with a valve letting the gas from one vessel into the other if the pressure difference Delta p ge 1.10 atm . Initially there was a vacuum in one vessel while the other contained ideal gas at a temperature t_1 = 27 ^@C and pressure p_1 = 1.00 atm . Then both vessels were heated to a temperature t_2 = 10.7 ^@C . Up to what value will the pressure in the first vessel (which had vacuum initially) increase ?