Consider the reaction
`A(g)+B(g) hArr C(g)+D(g)`
Which occurs in one step. The specific rate constant are `0.25` and `5000` for the forward and reverse reaction, respectively. The equilibrium constant is

For the reaction, A(g)+2B(g) hArr 2C(g) , the rate constant for forward and the reverse reactions are 1xx10^(-4) and 2.5xx10^(-2) respectively. The value of equilibrium constant, K for the reaction would be

For the reaction A+B hArr C , the rate constants for the forward and the reverse reactions are 4xx10^(2) and 2xx10^(2) respectively. The value of equilibrium constant K for the reaction would be

For the reversible reaction, A+BhArrC , the specific reaction rates for forward and reverse reactions are 1.25xx10^(3) "and" 2.75xx10^(4) respectively. The equilibrium constant for the reaction is:

Consider the imaginary equilibrium 4A(g)+5B(g)hArr 4X(g)+6Y(g) , The unit of equilibrium constant K_(C) is

For the reaction PCl_(5)(g) hArr PCl_(3)(g)+Cl_(2)(g) the forward reaction at constant temeprature is favoured by

For the reaction PCl_(5)(g) hArr PCl_(3)(g)+Cl__(2)(g) The forward reaction at constant temperature is favoured by

In an equilibrium reaction for which Delta G^(@) = 0 , the equilibrium constant K =