2g of `H_(2)` and `4g` of He are taken in vessel at 6 atm pressure and certain temperature. Find out the partial pressure of `H_(2)` (in atm).

3g of H_(2) and 24g of O_(2) are present in a gaseous mixture at constant temperature and pressure. The partial pressure of hydrogen is

If 1 mole of H_(2) , 2 moles of O_(2) and 3 moles of N_(2) are mixed in a vessel and total pressure was found to be 12 atm then the partial pressure exerted by N_(2) in the vessel will be

N_(2)O_(3) dissociates into NO and NO_(2) . At equilibrium pressure of 3 atm , all three gases were found to have equal number of moles in a vessel. In another vessel, equimolormixture of N_(2)O_(3), NO and NO_(2) are taken at the same temperature but at an initial pressure of 9 atm then find the partial pressure of NO_(2) (in atm ) at equilibrium in second vessel! N_(2)O_(3)(g) hArr NO(g) + NO_(2) (g)

4 g of O_2 and 2g of H_2 are confined in a vessel of capacity 1 litre at 0^@C . Calculate the partial pressure of each gas, and

Equal mass of H_(2) , He and CH_(4) are mixed in empty container at 300 K, when total pressure is 2.6 atm The partial pressure of H_(2) in the mixture is

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 :-

Assume that the decomposition of HNO_(3) can be repersented by the following equation 4HNO_(3)(g)hArr4NO_(2)(g)+2H_(2)O(g)+O_(2)(g) and the reaction approaches wquilibrium at 400 K temperature and 30 atm pressure. At equilibrium partial pressure of HNO_(3) is 2 atm Calculate K_(c) in (mol//L-K) at 400K (Use:R=0.08atm-L//mol-K)

56 g of nitrogen and 96 g of oxygen are mixed isothermaly and at a total pressure of 10 atm. The partial pressures of oxygen and nitrogen (in atm) are respectively :

1 gram H_(2) and 8g O_(2) were taken in a 10 liter vessel at 300 K. The partial pressure exerted by O_(2) will be

A mixture of one mole of each of O_2(g), H_2(g) , He(g) exists in a container of volume V at temperatureT in which partial pressure of H_2 (g) is 2atm. the total pressure in the container is: