The equiiibrium constant for the reaction `N_(2)(g)+3H_(2) hArr 2NH_(3)(g) and 2N_(2)(g) +6H_(2) harr 4NH_(3)(g) "are" K_(1) and K_(2)` respectively. The relationship between `K_(1) and K_(2)` is

Consider the following reversible chemical reactions at the same temperature with equilibrium constants K_(1) and K_(2) respectively A_(2)(g)+B_(2)(g) iff 2AB(g) (K_(1)) 6AB(g) iff 3A_(2)(g)+3B_(2)(g)(K_(2)) The relation between K_(1) and K_(2) is

Write an expression for equilibrium constant, Kc f or the reaction, 4NH_3(g)+5O_2(g)harr 4NO(g)+6H_2O(g)

The following equilibria and their equilibrium constants are given N_(2)+3H_(2) iff 2NH_(3)(K_(1)) N_(2)+O_(2) iff 2NO(K_(2)) H_(2)+1/2O_(2) iff H_(2)O(K_(3)) Therefore, the equilibrium constant of the reaction 2NH_(3)+5/2O_(2) iff 2NO+3H_(2)O in terms of K_(1), K_(2) and K_(3) is :

At 1000K, equilibrium constant K_c for the reaction 2SO_3(g) harr 2SO_2(g)+O_2(g) is 0.027. What is the value of K_p at this temperature?