At `527^(@)C`, the reaction given below has `K_(c)=4`
`NH_(3)(g)hArr(1)/(2)N_(2)(g)+(3)/(2)H_(2)(g)` What is the `K_(p)` for the reaction?

Equilibrium constant K_(C) for the following reaction at 800 K is, 4 NH_(3)(g)hArr (1)/(2)N_(2)(g)+(3)/(2)H_(2)(g) . The value of K_(p) for the following reaction will be N_(2)(g)+3H_(2)(g)hArr 2NH_(3)(g)

For the reaction 2NH_(3)(g) hArr N_(2)(g) +3H_(2)(g) the units of K_(p) will be

For the pair of reactions given below, I. N_(2)(g) +3H_(2)(g) hArr 2NH_(3)(g) II. (1)/(2)N_(2)(g) +(3)/(2)H_(2)(g) hArr NH_(3)(g) If at a particular temperature, K_(p1) and K_(p2) are the equilibrium constants for reaction I and II respectively. then

K_(p) and K_(p)^(**) are the equilibrium constants of the two reactions, given below (1)/(2)N_(2)(g)+(3)/(2)H_(2)(g)hArr NH_(3)(g) N_(2)(g)+3H_(2)(g)hArr 2NH_(3)(g) Therefore, K_(p) and K_(p)^(**) are related by

For the reaction at 25^(@)C NH_(3(g))rarr(1)/(2)N_(2(g))+(3)/(2)H_(2(g)),DeltaH^(@)=11.04K calculate DeltaU^(@) of the reaction at the given temperature

Equilibrium constant K_C for the following reaction at 800K is 4. NH_3 (g) hArr 1/2 N_2 (g) + 3/2 H_2 (g) The value of K_P for the following reaction will be N_2(g) + 3H_2(g) hArr 2NH_3(g) , KP = ?

For the reaction NH_(3)(g)hArr(1)/(2)N_(2)(g)+(3)/(2)H_(2)(g) Show that the degree of dissociation of NH_(3) is given as alpha=[1+(3sqrt(3))/4p/K_(p)]^(-1//2) where p is equilibrium pressure. If K_(p) of the above reaction is 78.1 atm at 400^(@)C , calculate K_(c ) .