For the equilibrium reaction, `3Fe_((s)) + 4H_(2) O_((g)) hArr Fe_(3)O_(4(s)) + 4 H_(2(g)) ` the relation between `K_(p) and K_(c)` is

In the reaction H_(2)(g) + Cl_(2) (g) rarr 2HCI(g) , relation between K_(p) and K_(c) is

What is the equilibrium expression for the reaction, P_(4(s)) + 5O_(2(g)) hArr P_(4)O_(10(s)) ? .

Steam is passed over hot carbon to attain the equilibrium at 400k. C_(s) + H_(2)O_((g)) hArr CO_((g)) + H(2(g)) . The equilibrium constant k = 1.34 (dimensionless) and the total pressure of the equilibrium mixture is 200 k.pa. Which one is correct when equilibrium is attained

In the equilibrium NH_(4) HS_(s) hArr NH_(3(g)) + H_(2) S_((g)) . the forward reaction can be favoured by

For the reaction SnO_(2(s)) + 2H_(2(g)) hArr 2H_(2) O_((g)) + Sn_((d)) . Calculate K_(p) at 900K, where the equilibrium steam hydrogen mixture was 45% H_(2) by volume.

At a given temperature, Ke is 4 for the reaction H_(2(g)) + CO_(2(g)) hArr H_(2)O_((g)) + CO_((g)) . Initially 0.6 moles each of H_(2) and CO_(2) are taken in 1lit flask. The equilibrium concentration of H_(2) O_((g)) is

For the reaction. SO_(2(g)) + (1)/(2) O_(2(g)) hArr SO_(s(g)). If K_(p) = K_(c)(RT)^(8) . when the symbols have usual meaning. the value of x is (assuming ideality)

For the following three reactions a, b and c equilibrium constant are given a) CO_((g))+H_2O_((g)) harr CO_(2(g))+H_(2(g)) , K_1 b) CH_(4(g))+H_2O_((g)) harr CO_((g))+3H_(2(g)) , K_2 c) CH_(4(g))+2H_2O_((g)) harr CO_(2(g))+4H_(2(g)) , K_3 Which of the following relations is correct?

Calculate standard entropy change in the reaction Fe_(2)O_(3(s)) + 3H_(2(g)) rarr 2Fe_((s)) + 3H_(2)O_((l)) Given: S_(m)^(0) (Fe_(2)O_(3), s) = 87.4 S_(m)^(0) (Fe, s) = 27.3, S_(m)^(0) (H_(2)g) = 130.7, S_(m)^(0) (H_(2)O, 1) = 69.9 JK^(-1) mol^(-1)