In the equilibrium `H_(2)+I_(2)hArr2HI` the number of moles of `H_(2),I_(2)` and HI are 1,2,3 moles respectively. Total pressure of the reaction mixture is 60 atm. Calculate the partial pressures of `H_(2),I_(2)` and HI in the mixture.

Equal weights of SO_(2) and O_(2) are mixed in an empty container at 300 K . The total pressure exerted by the gaseous mixture is 1 atm . The partial pressure of SO_2 gas in the mixture is

56g of N_(2) ( molar mass = 28) are mixed with 44g of CO_(2) ( molar mass = 44) and the pressure of the resulting gaseous mixture is 3 atm. The partial pressure of N_(2) in the mixture is :

For the gaseous reaction : N_(2)+3H_(2)hArr 2NH_(3) the partial pressure of H_(2) and N_(2) are 0.4 and 0.8 atm respectively. The total pressure of the entire system is 2.8 atm. What will be the value of K_(p) if all concentrations are given in atmospheres ?

For the equilibrium reaction H_(2(g))+I_(2(g))hArr 2HI_((g))

A gaseous mixture was prepared by taking equal mole of CO and N_(2) . If the total pressure of the mixture was found 1 atmosphere, the partial pressure of the nitrogen ( N_(2)) in the mixture is :

In the equilibrium reaction CO_(2(g))+C_((s))hArr 2CO_((g)) the partial pressure of CO2 and CO are 0.78 atm and 1.22 atm respectively at equilibrium. Calculate the equilibrium constant

Calculate the partial pressures of O_2 and H_2 in a mixture of 3 moles of O_2 and 1 mole of H_2 at S.T.P.

K_(p) for the reaction : CO_(2)(g)+H_(2)(g) hArr CO(g)+H_(2)O(g) is found to be 16 at a given temperature. Originally equal number of moles of H_(2) and CO_(2)(g) were placed in the flask. At equilibrium, the pressure of H_(2) is 1.20 atm. What is the partial presure of CO_(2) and H_(2)O ?