`N_(2(g)) + 3H_(2(g)) hArr 2NH_(3(g))`. If some HCl gas is passed into the reaction mixture at the equilibrium of this R reaction,

A mixture of 1.57 mol of N_(2) , 1.92 mol of H_(2) and 8.13 mol of NH_(3) is introduced into a 20L reaction vessel at 500K . At this temperature, the equilibrium constant, K_(c) for the reaction N_(2)(g)+3H_(2)(g)hArr2NH_(3)(g) is 1.7xx10^(2) . Is the reaction mixture at equilibrium ? If not, what is the direction of the net reaction ?

N_(2(g)) + 3H_(2(g)) harr 2NH_(3(g)) is a gaseous phase equilibrium reaction taking place at 400K in a 5 L flask. For this

N_(2(g)) + 3H_(2(g)) hArr 2NH_(3(g)) for the reaction initially the mole ratio was 1: 3 of N_(2). H_(2) . At equilibrium 50% of each has reacted. If the equilibrium pressure is p, the partial pressure of NH_(3) at equilibrium is

For the gaseous reactions (I) and (II) the equilibrium constants are X and Y respectively. I. (1)/(2)N_(2)(g) + O_(2) (g) hArr NO_(2)(g) (II) 2NO_(2)(g) hArr N_(2)O_(4) (g) Using the above reactions the equilibrium constant Z for the reaction (III) given below is III. N_(2)O_(4)(g) hArr N_(2)(g) + 2O_(2) (g)

For the reaction N_(2)O_(4(g)) hArr 2NO_(2(g)) . which of the following factors will have no cffect on the value of equilibrium constant ?

N_(2(g))+3H_(2(g))hArr2NH_(3)(g)+22k.cal . The activation energy for the forward reaction is 50 k. cal What is the activation energy for the backward reaction ?

For the reaction, N_(2(g)) + 3H_(2(g)) rarr 2NH_(3(g)) . Heat of reaction at constant volume exceeds the heat of reaction at constant pressure by the value of xRT. The value of x is______

Equilibrium constant, K_(c) for the reaction N_(2)(g)+3H_(2)(g)hArr2NH_(3)(g) at 500K is 0.061 At particular time, the analysis shows that composition of the reaction mixture is 3.0 mol L^(-1)N_(2) , 2.0 mol L^(-1)H_(2) and 0.5 mol L^(-1)NH_(3) . Is the reaction at equilibrium ? If not in which direction does the reaction tend to proceed to reach equilibrium ?