`2SO_3(g) harr 2SO_2(g) + O_2(g)` For the equilibrium `K_c` at `470^@C` is `3.25xx10^-9 mol//lit`. What will be the value of `K_p`at this temperature?

For the equilibrium 2SO_3(g) to 2So_2(g)+O_2(g), K_c at 47^0C 3.25xx10_-9 mol per liter. What will be the value of K_p at this temperature(R= 8.314 JK_1mol_1 )

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?

The K_c for the following reaction. PCl_(5(g)) harr PCl_(3(g)) + Cl_2(g) , H = 124.0 kJ mol^-1 is 8.3xx10^14 .What is the value of Kc for the reverse reaction at the same temperature?

For the following equilibrium K_p = 6.3xx10^14 at 1000 K, NO(g) + O_3(g) harr NO_2(g) + O_2(g) Both the forward and reverse reactions in the equilibrium are elementary biomolecular reactions. What is K_c , reaction?

For the reaction, 2NO_(g) + O_(2(g)) harr 2NO_(2(g)) . The equilibrium constant is K. Then predict the equilibrium constants for the following reactions. 2NO_2 harr 2NO + O_2

For the reaction, 2NO_(g) + O_(2(g)) harr 2NO_(2(g)) . The equilibrium constant is K. Then predict the equilibrium constants for the following reactions. More O_2 is added to the equilibrium.

The equilibrium constant of the reaction H_2(g) + I_2(g) harr 2HI(g) is 57 at 700 K. Now, give the equilibrium constants for the following reaction at the same temperature: 4HI(g) harr 2H_2(g) +2I_2(g)