Write the equations for the conversion of `K_(c)`d to `K_(p)` for each of the following reaction.
`C_(3)H_(8)(g)+5O_(2)(g)hArr3CO_(2)(g)+4H_(2)O(g)`

Write the equations for the conversion of K_(c) d to K_(p) for each of the following reaction. CO(g)+H_(2)O(g)hArrCO_(2)(g)+H_(2)(g)

Write reaction equotient, Q, for each of the following reactions. a. 3O_(2)(g)hArr2O_(3)(g) b. 4NH_(3)(g)+7O_(2)(g)hArr 4NO_(2)(g)+6H_(2)O(g)

Write expression for the equilibrium constant, K_(c) , for each of the following reactions: (i) 2NOCl_((g))harr2NO_((g))+Cl_(2(g)) (ii) 2Cu(NO_(3))_(2(s))hArr 2CuO_((s))+4NO_(2(g))+O_(2(g)) (iii) CH_(3)COOC_(2)H_(5(ag))+H_(2)O(I)hArr CH_(3)COOH_((aq))+C_(2)H_(5)OH_((aq)) (iv) Fe_((aq))^(+3)+3OH_((aq))^(-)hArrFe(OH)_(3(S)^(+))

Derive the relation between K_(p) and K_(c) for the equilibrium reaction. N_(2)(g)+3H_(2)(g)hArr 2NH_(3)(g)

In what manner will increase of pressure affect the following equation ? C_((s)) + H_(2)O_((g)) hArr CO_((g)) + H_(2(g))

At 500K, K_(p) value for the reaction 2SO_(2)(g)+O_(2)(g)hArr2SO_(3)(g) is 2.5xx10^(10) . Find the value of K_(p) for each of followign reactions at the same temperature. a. SO_(2)(g)+1//2O_(2)(g)hArrSO_(3)(g) b. SO_(3)(g)hArrSO_(2)(g)+1//2O_(2)(g) c. 3SO_(2)(g)+3//2O_(2)(g)hArr3SO_(3)(g)