The unit of rate constant for the reaction .
`2A+ 2B to A_(2)B_(2)`
Which has rate = K `K[A]^(2)[B]` is :

The unit of rate constant for the reaction, 2H_(2) + 2NO to 2H_(2)O + N_(2) Which has rate = k [H_(2))[NO]^(2) , is

The unit of rate constant obeying the rate expression r=k[A]'[B]^(2//3) is :

form the gaseous reaction 2A + B_(2) rarr 2AB , the following rate data were obtained at 300 K . Calculate the rate constant for the reaction and the rate of formation of AB when [A] is 0.02 and [B_(2)] is 0.04 mol L^(-1) at 300K .

If the equilibrium constant for the reaction A_(2)+B_(2) hArr 2AB is K, then the backward reaction, AB hArr 1/2 A_(2)+1/2 B_(2) the equilibrium constant is 1//K .

The rate law for the reaction A +2B to products is : rate = K [A] [B] ^(2) Rate of the reaction at 30 ^(@) C is found to be 0.125 M/s , when [A]=2.0 M and [B]=0.4 M . The rate constant k at this temperature is ________ M^(-2) S^(-1) .

The rate equation for the reactions 2A + B to C is found to be: rate = k[A][B] . The correct statement in relation to this reaction is that the

If the rate constant for a reaction is expressed as: rate = k[A]^(2)[B] , what is the order of the reacton?