The equilibrium constant for the following reaction is

The equilibrium constant for the following reaction at 25^(@)C is 2.9×10^(9) . Calculate standard voltage of the cell . Cl_2(g)+Br_(aq)^(-) ⇌ Br_2(l)+2Cl_(aq)^(-)

Given that equilibrium constant for the reaction 2SO_(2)(g) + O_(2)(g)hArr2SO_(3)(g) has a value of 278 at a particular temperature. What is the value of the equilibrium constant for the following reaction at the same temperature ? SO_(3)(g)hArrSO_(2)(g) + (1)/(2)O_(2)(g)

Calculate the equilibrium constant for the following reaction at 298 K: 2H_2O (l) to 2H_2(g) + O_2(g) Given : Delta_fG^@ [ H_2O (l)] = - 273.2 kJ mol^(-1) R = 8.314 J mol^(-1) K^(-1) .

If E_(CIO_(3)^(-)//ClO_(4)^(-))^(@) = -0.36V and E_(ClO_(3)^(-)//ClO_(2)^(-))^(@)= 0.33V at 300 K . Find the equilibrium constant for the following reaction . 2ClO_(3)^(-)to ClO_(2)^(-)_ClO_(4)^(-)

Calculated the equilibrium constant for the following reaction at 298K : 2H_(2)O(l) rarr 2H_(2)(g) +O_(2)(g) Delta_(f)G^(Theta) (H_(2)O) =- 237.2 kJ mol^(-1),R = 8.314 J mol^(-1) K^(-1)

The equilibrium constant of the following reactions at 400 K are given: 2H_(2)O(g) hArr 2H_(2)(g)+O_(2)(g), K_(1)=3.0xx10^(-13) 2CO_(2)(g) hArr 2CO(g)+O_(2)(g), K_(2)=2xx10^(-12) Then, the equilibrium constant K for the reaction H_(2)(g)+CO_(2)(g) hArr CO(g)+H_(2)O(g) is

The equilibrium constant K_c for the following reaction will be K_2CO_3(aq)+BaSO_4(s) hArr BaCO_3(s) +K_2SO_4(aq)

Calculate the equilibrium constant for the following reaction at 298 K and 1 atm pressure.C(graphite)+H2O(l)=CO(g)+H2(g) Given : 'Delta_f H^@ , [H_2O (l)] = -286.0 kJ mol^(-1) , Delta_f H^@ [ CO (g)] = - 110.5 kJ mol^(-1) , DeltaS^@ at 298 K for the reaction =252.6 J k^(-1) mol^(-1) . Gas constant R = 8.31 Jk^(-1) mol^(-1) .

Determine K_(c ) for the reaction (1)/(2)N_(2)(g)+(1)/(2)O_(2)(g)+(1)/(2)Br_(2)(g)hArrNOBr(g) from the following data at 298 K . The equilibrium constants for the following reaction 2NO(g)hArrN_(2)(g)+O_(2)(g) and NO(g)+(1)/(2)Br_(2)(g)hArrNOBr(g) are 2.4xx10^(30) and 1.4 , respectively.

Calculate the equilibrium constant for the following reaction at 298K and 1 atmospheric pressure: C(grap hite) +H_(2)O(l) rarr CO(g) +H_(2)(g) Given Delta_(f)H^(Theta) at 298 K for H_(2)O(l) =- 286.0 kJ mol^(-1) for CO(g) =- 110.5 kJ mol^(-1) DeltaS^(Theta) at 298K for the reaction = 252.6 J K^(-1) mol^(-1)