Calculate the partial pressures `N_2` and `H_2` in a mixture of two moles of `N_2` and two moles of `H_2` at STP.

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.

Ethylene bromide C_(2)H_(4)Br_(2) , and 1,2 -dibromopropane, C_(3)H_(6)Br_(2) ,form a series of ideal solutions over the whole range of composition. At 85^(@)C , the vapour pressure of these two pure liquids are 173 and 127 torr, respectively. . If 10.0 g of ethylene bromide is dissolved in 80.0 g of 1,2-dibromopropane, calculate the partial pressure of each component and teh total pressure of the solution at 85^(@)C . b. Calculate the mole fraction of ethylene bromide in the vapour in equilibrium with the above solution. c. What would be the mole fraction of ethylene bromide in a solution at 85^(@)C equilibrated with a 50 : 50 mole mixture in the vapour?

An organic compound A on heating with concentrated sulphuric acid forms a compound B which on addition of the mole of hydrogen in presence of Ni forms a compound C. One mole of compound C on combustion forms two moles of CO_2 and 3 moles of H_2O . Identify the compounds A,B and C.

Calculate the number of moles in (a) 10 g of Hydrogen molecules (b) 30 g of H_(2)O

Calculate the mass of the following is grams (a) 5.4 moles of O_(2) (b) 2.5 moles of CO_(2) , ( c) 4.2 mole of nitrogen atoms.

Calculate the mass of the following ,2.5 moles of CO_2

5 moles of SO_(2) and 5 moles of O_(2) are allowed to react, At equilibrium, it was found that 60% of SO_(2) is used up. If the partial pressure of the equilibrium mixture is one atmosphere, the partial pressure of O_(2) is

Calculate the mass of the following : 9.2 mole of N_2