2L of `SO_(2)` gas at 760 mm Hg are transferred to 10 L flask containing oxygen at a particular temperature, the partial pressure of `SO_(2)` in the flask is

O_(2) and SO_(2) gases are filled in ratio of 1 : 3 by mass in a closed container of 3 L at temperature of 27^(@)C . The partial pressure of O_(2) is 0.60 atm, the concentration of SO_(2) would be

The vapour pressure of water at 80^(@)C is 355 mm of Hg. 1 L vessel contains O_(2) at 80^(@)C , which is saturated with water and the total pressure being 760 mm of Hg. The contents of the vessel were pumped into 0.3 L vessel at the same temperature. What is the partial presure of O_(2) ?

The atmospheric pressure is 760 mm Hg at the sea level. Which of the following ranges in nearest to the partial pressure of CO_(2) in mm Hg ?

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 ? .

A mixture of gases in a cyliner at 760 mm pressure contains 65 % nitrogen, 15% oxygen, and 20% carbon dioxide by volume. What is the partial pressure of each gas in mm ?

If 4 litre of H_(2) gas at 400 mm Hg and 47^(@)C is transferred to 19 litre flask at 107^(@)C . Then pressure of H_(2) 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 flask of 4.48 L capacity contains a mixture of N_(2) and H_(2) at 0^(@)C and 1 atm pressure. If thed mixture is made to react to form NH_(3) gas at the same temperature, the pressure in the flask reduces to 0.75 atm . Select statement(s) :