An ideal gas at 650 Torr occupies a bulb of unknown volune. A certain amount of gas is withdrawn and found to occupy `1.52 cm^(3)` at one atm. The pressure of the gas remaining in the bulb is 600 Torr. Calculate volume of the bulb (in mL) taking temperature constant. Give answer excluding decimal places.

0.30 g of gas was found to occupy a volume of 82.0 mL at 27^(@)C and 3 atm. Pressure. The molecular mass of the gas is

0.30 g of gas was found to occupy a volume of 82.0 mL at 27^(@)C and 3 atm. Pressure. The molecular mass of the gas is

A evacuated bulb of unknown volume is filled with H_(2) gas at room temperature (30^(@)C) . The pressure of the gas in the bulb is 750 mm Hg. A portion of the gas is transferred to a different flask and found to occupy a volume of 50.0 mL at 1 atm pressure and at the same temperature. the pressure of the H_(2) gas remaining in the original bulb drops to 600 mm Hg. What is the volume of the bulb assuming H_(2) gas is an ideal gas ?

A certain amount of a gas at 27^(@)C and 1 bar pressure occupies a volume of 25 m^(3) . If the pressure is kept constant and the temperature is raised to 77^(@)C what will be the volume of the gas?

An evacuated bulb of unknown volume is filled with a sample of H_(2) gas at a temperature T The pressure of the gas in the bulb is 756mm Hg A portion of the H_(2) gas is transferred to a different flask and found to occupy a volume of 40.0mL at 1.00 atn and the same temperature T The pressure of the H_(2) gas remaining in the original bulb drops to 625mm hg at the same temperature T Assuming H_(2) is an ideal gas, what is the volume of the bulb ? .

At constant temperature and 1 atm pressure, an ideal gas occupies a volume of 3.25m^(3) . Calculate the final presure of the gas in the units of atm, torr and Pa if the its volume is reduced to 1.25m^(3) while its temperature is kept constant.

Volume of certain amount of a gas at 25^@C and 100 cm Hg pressure is 80 mL. The gas is expanded to 160 mL keeping the temperature constant. Calculate the pressure of the expanded gas.

Volume of certain amount of a gas at 25^@C 100 cm Hg pressure is 80 mL. The gas is expanded to 160 mL keeping the temperature constant. Calculate the pressure of the ended gas.

A certain amount of a gas at 27^(@)C and 1 atmospheric pressure occupies a volume of 25dm^(3) . If the pressure is kept constant and the temperature is raised to 77^(@)C , what would be the volume of the gas ?