The equilibrium constant for the reaction `CO _(2) (g) + H _(2) (g) hArr CO (g) + H _(2) O (g)` at 298 K is 73. Calculate the value of the standard free energy change. `(R=8.314 J mol^(-1) K ^(-1)).`

For the reaction H_2(g)+I_2(g) hArr 2 HI (g) K c=54.8 at 700 K . Calculate the value of K_p

Write an expression for equilibrium constant, Kc f or the reaction, 4NH_3(g)+5O_2(g)harr 4NO(g)+6H_2O(g)

For the reaction, H_2(g) + I_2(g) harr 2HI(g) , value of K_c is 46.4 at 298K. What is the value of Kp?

At 1000K, equilibrium constant K_c for the reaction 2SO_3(g) harr 2SO_2(g)+O_2(g) is 0.027. What is the value of K_p at this temperature?

Equilibrium constant 'K_c' for the reaction 'N_2(g)+3 H_2(g) hArr 2 N H_3(g)' at '500 K' is '0.061' At a particular time, the analysis shows that composition of the reaction mixture is '3.0 molL^(-1) N_2, 2.0' mol 'L^(-1) . H^2' and '0.5 mol L^(-1) NH_3 .' Is the reaction at equilibrium? If not in which direction does the reaction tend to proceed to reach equilibrium?

If the value for equilibrium constant for the reaction, A_(2)(g)+2B_(2)(g)hArr4C(g) is 2. What is the equilibrium constant for the reaction: 2C(g)hArr1//2A_(2)(g)+B_(2)(g)