A mixture of nitrogen and hydrogen in the ratio of `1: 3` reach equilibrium with ammonia, when `50 %` of the mixture has reacted. If the total pressure is `P`, the partial pressure of ammonia in the equilibrium mixture was :

A nitrogen-hydrogen mixture initially in the moler ratio of 1:3 reached equilibrium to from ammonia when 25% of the N_(2)and N_(2) had reacterd .If the pressure of the system was 21 atm , the partial pressure of ammonia at the equilibrium was :

A nitrogen-hydrogen mixture initially in the moler ratio of 1:3 reached equilibrium to from ammonia when 25% of the N_(2)and N_(2) had reacterd .If the pressure of the system was 21 atm , the partial pressure of ammonia at the equilibrium was :

A nitrogen-hydrogen mixture initially in the moler ratio of 1:3 reached equilibrium to from ammonia when 25% of the N_(2)and N_(2) had reacterd .If the pressure of the system was 21 atm , the partial pressure of ammonia at the equilibrium was :

A mixture of nitrogen and hydrogen are initially in the molar ratio of 1:3 related equilibrium to form ammonia when 25% of the material had reacted. If the total pressure of the system is 28 atm , calculate the partial pressure of ammonia at the equilibrium.

A mixture containing N_2 and H_2 in a mole ratio 1 : 3 is allowed to attain equilibrium when 50% of the mixture has reacted. If P is the pressure at equilibrium, then the partial pressure of NH_3 formed is

If a mixture of CO and N_(2) in equal amount have total 1 atm pressure, then partial pressure of N_(2) in the mixture is

A mixture of Nitrogen and Hydrogen (1:3 mole ratio) is at an initial pressure of 200atm. If 20% of the mixture reacts by the time equilibrium is reached, the equilibrium pressure of the mixture is