For `N_2+3H_2⇌2NH_3`, one mole of `N_2` and three moles of `H_2` are at pressure of 4 atm. Equilibrium pressure is found to be 3 atm. Hence, `K_p` 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_(3) +3H_(2) hArr 2NH_(3) Starting with one mole of nitrogen and 3 moles of hydrogen, at equiliibrium 50% of each had reacted. If the equilibrium pressure is P , the partial pressure of hydrogen at equilibrium would be

For the reaction : 2NO(g) + Cl_(2) (g) hArr 2NOCl (g), NO and Cl_(2) are initially taken in mole ratio 2 : 1 . The total pressure at equilibrium is found to be 1 atm . If mole of NOCl are one fourth of that of Cl_(2) at equilibrium, K_(p) for the reaction is:

What is the effect of increasing pressure on the equilibrium N_2 +3H_2hArr 2NH_3 ?

A mixture of 2 moles of NH_(3) and 3 moles of N_2 exert a pressure of 500 mm Hg pressure in a rigid container. If one mole of HCl gas is pumped into the flask what may be the resultant pressure ? (Ignore temperature change)

2NH_(3) to N_(2) + 3H_(2) Find moles of H_(2) produced from 4 moles of NH_(3)

When 1 mole of N_2 and 1 mole of H_2 is enclosed in 3L vessel and the reaction is allowed to attain equilibrium , it is found that at equilibrium there is 'x' mole of H_2 . The number of moles of NH_3 formed would be

A cylinder contains 0.3 moles of N_(2) , 0.1 mole of O_(2) and 0.1 mole of helium. If the total pressure is one atm, what is the partial pressure of oxygen in mm Hg:-

In the arrangement given below 20 mole of N_(2) and 5 mole of He are present above water. The total pressure above the water is 60 atm. If K_(H) of N_(2) is 10^(5) atm. How many moles of N_(2) are dissolved in water? give your answer after multiplying by 10^(3) The vapour pressure of water is 10 atm.

The Kp of the reaction is NH_4HS(s)⇌NH_3(g)+H_2S( g) . If the total pressure at equilibrium is 30 atm.