`N_(2)O_(2) hArr 2NO, K_(1),`
`(1/2)N_(2)+(1/2)O_(2) hArr NO, K_(2),`
`2NO hArr N_(2)+O_(2),K_(3),`
`NO hArr (1/2)N_(2)+(1/2)O_(2),K_(4)`
Correct relaton(s) between `K_(1), K_(2), K_(3)` and `K_(4)` is/are

(i) N_(2)(g)+O_(2)(g)hArr2NO(g), K_(1) (ii) ((1)/(2))N_(2)(g)+((1)/(2))O_(2)(g)hArrNO(g), K_(2) (iii) 2NO(g)hArrN_(2)(g)+O_(2)(g), K_(3) (iv) No(g)hArr((1)/(2))N_(2)(g)+((1)/(2))O_(2)(g), K_(4) Correct relation between K_(1),K_(2),K_(3) "and" K_(4) is//are:

N_2O_2 hArr NO,K_1,1/2 N_2 +1/2O_2hArr NO,K_2 2NO hArr N_2+O_2k_3 , NO hArr 1/2 N_2 +1/2O_2 K_4

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

Consider the following equilibrium: SO_(2)(g)+(1)/(2)O_(2)(g)overset(K_(1))(hArr)SO_(3)(g), 2SO_(3)(g) overset(K_(2))(hArr) 2SO_(2)(g) + O_(2) (g) What is the relation between K_(1) and K_(2) ?

Given N_(2)(g)+3H_(2)(g)hArr2NH_(3)(g),K_(1) N_(2)(g)+O_(2)(g)hArr2NO(g),K_(2) H_(2)(g)+(1)/(2)O_(2)hArrH_(2)O(g),K_(3) The equilibrium constant for 2NH_(3)(g)+(5)/(2)O_(2)(g)hArr2NO(g)+3H_(2)O(g) will be

Given N_(2)(g)+3H_(2)(g)hArr2NH_(3)(g),K_(1) N_(2)(g)+O_(2)(g)hArr2NO(g),K_(2) H_(2)(g)+(1)/(2)O_(2)hArrH_(2)O(g),K_(3) The equilibrium constant for 2NH_(3)(g)+(5)/(2)O_(2)(g)hArr2NO(g)+3H_(2)O(g) will be

K_(1) and K_(2) are equilibrium constants for reaction (i) and (ii) N_(2)(g)+O_(2)(g) hArr 2NO(g) …(i) NO(g) hArr 1//2 N_(2)(g)+1//2O_(2)(g) …(ii) then,

K_(1) and K_(2) are equilibrium constants for reaction (i) and (ii) N_(2)(g)+O_(2)(g) hArr 2NO(g) …(i) NO(g) hArr 1//2 N_(2)(g)+1//2O_(2)(g) …(ii) then,

For the reaction CO(g)+(1)/(2) O_(2)(g) hArr CO_(2)(g),K_(p)//K_(c) is

If K_(1) represents the equilibrium constant for reaction: H_(2)+I_(2)hArr2HI & K_(2)" for "(1)/(2)H_(2)+(1)/(2)I_(2)hArr HI the relation between K_(1)& K_(2) would be