Pure hydrogen sulphide is stored in a tan of 100 litre capacity at `20^(@)C` and 2 atm pressure. The mass of the gas will be

Pure hydrogen sulphide is stored in a tank of 100 litre capacity at 20^(@) C and 2 atm pressure. The mass of the gas will be

At 27^(@)C and 2.0 atm pressure, the density of propene gas is :

Hydrogen gas occupies a volume of 18 litres at 27^(@)C and under a pressure of 0.92 bar. The number of moles present in the gas is :

A vessel of volume 20 L contains a mixture o hydrogen and helium at temperature of 27^(@)C and pressure 2.0 atm The mass of the mixture is 5 g . Assuming the gases to be ideal, the ratio of the mass of hydrogen to heat of helium in the given mixture will be

30 litre of ammonia gas at 30^@C and 40 atm pressure is allowed to expand in a space of 40 litre capacity and pressure becomes 20 atm. Calculate the drop in temperature.

The temperature of a given mass of a gas is increased from 19^(@)C to 20^(@)C at constant pressure. The volume V of the gas is

A pure gas that is 14.3% hydrogen and 85.7% carbon by mass has a density of 2.5g L^(-1) at 0^(@)C and 1 atm pressure. What is the molecular formula of the gas :

32 g of oxygen and 2 g of hydrogen are placed in 1.12 litre flask at 0^∘C . Find the total pressure in atm of the gas mixture.

48 g of oxygen and 4 g of hydrogen are placed in 2 litre flask at 0^∘C . Find the total pressure in atm of the gas mixture.

300 L of ammonia gas at 20^(@)C and 20 atm pressure is allowed to expand in a space of 600 L capacity and to a pressure of 1 atm. Calculate the drop in temperature.