For the equilibrium `H_(2)O (l)

What will be the relation between K_(p) and K_(c) for the given equilibrium ? CO(g)+H_(2)O(g)hArrCO_(2)(g)+H_(2)(g) .

Write the expression for the equilibrium constant, K_(c) for each of the following reactions: CH_(3)COOC_(2)H_(5) (aq)+H_(2)O(l) hArr CH_(3)COOH(aq)+C_(2)H_(5)OH(aq)

Calculate the value of the equilibrium constant of the given reaction at 298 K: 4Br^(-)+O_(2)+4H^(+)rarr 2Br_(2)+2H_(2)O Given : E_("cell")^(@)=+0.16V

The standard reduction potential of the reaction, 2H_(2)O+2e rarr H_(2)+2OH^(-) is -0.8277V at 25^(@)C . Find the value of the equilibrium constant of the reaction 2H_(2)Orarr H_(3)O^(+)+OH^(-) at the same temperature.

For the relation, H_(2)(g)+CO_(2)(g) hArr H_(2)O(g)+CO(g) show the equilibrium yield of the products is independent of pressure at constant temperature.

Mention two ways by which the equilibrium of the given reaction can be shifted to the right. CH_(3)COOH(l)+C_(2)H_(5)OH(l) overset(H^(+))hArr CH_(3)COOC_(2)H_(5)(l)+H_(2)O(l)

Decomposition of hydrogen peroxide in alkaline medium in presence of iodide (I^(-)) catalyst occurs according to the equation: 2H_(2)O_(2)underset("alkali")overset(I^(-))rarr2H_(2)O(l)+O_(2)(g) A proposed mechanism for this reaction involves the following steps : Step-I : H_(2)O_(2)(l)+I^(-)(aq)rarrH_(2)O(l)+IO^(-)(aq)("slow") Step-II : H_(2)O_(2)(l)+IO^(-)(aq)rarrH_(2)O(l)+IO^(-)(aq)+O_(2)(g)("fast") Calculate the order of the reaction.

Decomposition of hydrogen peroxide in alkaline medium in presence of iodide (I^(-)) catalyst occurs according to the equation: 2H_(2)O_(2)underset("alkali")overset(I^(-))rarr2H_(2)O(l)+O_(2)(g) A proposed mechanism for this reaction involves the following steps : Step-I : H_(2)O_(2)(l)+I^(-)(aq)rarrH_(2)O(l)+IO^(-)(aq)("slow") Step-II : H_(2)O_(2)(l)+IO^(-)(aq)rarrH_(2)O(l)+IO^(-)(aq)+O_(2)(g)("fast") Write rate law for the reaction .

H_(2)(g)+(1)/(2)O_(2)(g)toH_(2)O(l),DeltaH=-285.8kJ . What will be the value of DeltaH for the reaction: 2H_(2)O(l)to2H_(2)(g) +O_(2)(g) ?