A reaction is represented by `A to^(k_1) B` (slow).
`A+B to^(k_2) C` (fast). Where `k_1 and k_2` are the rate constants of the mechanistic steps. The rate of production of C will be given by

A reaction is represented by : A to B slow and A+B to C (fast) where k_1 and k_2 are the rate constants of the mechanistic steps. The rate of production of B will be given by :

Rate of reaction is given by the eqution : Rate = k[A]^(2)[B] . What are the units for the rate and rate constant for the reaction?

The rate law for a reaction A + B to C + D is given by the expression k[A]. The rate of reaction will be

In the sequence of reaction A to^(k_1) B to^(k_2) C to^(k_3) D , it is know that k_3 gt k_2 gt k_1 . Then the rate determining step of the reaction is:

Rate of a reaction is given by the equation : Rate =k[A]^2 [B]. What are the units for the rate and the rate constant for this reaction?

For a reaction scheme A overset ( k _ 1 ) to B overset ( k _ 2 ) to C , if the rate of formation of B is set to be zero then the concentration of B is given by :

Reactions: 2A+B+2C to D follows three mechanistic steps: 2A+B to X (slow) X+C to Y (fast) Y+C to D (fast) What is the molecularity of the rate determining step and the total order of the reaction?

The rate equation for the second order reaction 2A+B rarr C is found to be: rate = k[A][B] . The correct statement in relation of this reaction is that (a) The value of k is independent of the initial concentration of A and B . (b) t_(1//2) is a constant. (c) The rate of formation of C is twice the rate of disappearance of A . (d) The unit of k must be s^(-1)