The closed containers of the same capacity and at the same temperature are filled with 44 g of `H_(2)` in one and 44 g of `CO_(2)` in the other . If the pressure of carbon dioxide in the second container is 1 atm , then pressure of hydrogen in the first container would be :

Two identical vessels are filled with 44g of Hydrogen and 44g of carbon dioxide at the same temperature. If the pressure of CO_(2) is 2 atm, the pressure of Hydrogen is

4.4 g of CO_(2) contains how many litres of CO_(2) at STP ?

A gaseous mixture contains 220 g of carbon dioxide and 280 g of nitrogen gas. If the partial pressure of nitrogen gas in the mixture is 1.5 atm then the partial pressure of carbon dioxide gas in the mixture will be

What is the mass of carbon dioxide which contains the same number of molecules as are contained in 40 g of oxygen?

The partial pressure of hydrogen in a flask containing 2 g of H_(2) and 32 g of SO_(2) is

One gram of hydrogen and 112 g of nitrogen are enclosed in two separate containers each of volume 5 L and at 27^@C . If the pressure of the hydrogen is 1 atm, then the pressure of nitrogen would be

A container contains 32 g of O_2 at a temperature T. The pressure of the gas is P. An identical container containing 4 g of H_2 at a temperature 2T has a pressure of

A methane +H_(2) mixture contains 10g methane and 5g Hydrogen. If the pressure of the mixture is 30 atm. What is the partial pressure of H_(2) in mixture :-

A mixture of a mol of C_(3) H_(8) and b mol of C_(2) H_(4) was kept is a container of V L exerts a pressure of 4.93 atm at temperature T . Mixture was burnt in presence of O_(2) to convert C_(3) H_(8) and C_(2) H_(4) into CO_(2) in the container at the same temperature. The pressure of gases after the reaction and attaining the thermal equilirium with atomsphere at temperature T was found to be 11.08 atm. The moles of O_(2) needed for combustion at temperature T is equal to