The rate law for reaction between the substances A and B is given by
Rate `=k[A]^(n)[B]^(m)`
On doubling the concentration of A and halving the concentration of B, the ratio of the new rete to the earlier rate of reaction will be

The rate law for a reaction between the substances A and B is given by Rate = k[A]^(n)[B]^(m) On doubling the concentration of A and halving the concentration of B, the ratio of the new rate to the earlier rate of the reaction will be as:

The rate law for a reaction between A and B is given by rate = k[A]^(n)[B]^(m) . On doubling the concentration of A and halving the concentration of B , the ratio of the new rate to the earlier rate of the reaction becomes

If the rate of reaction between A and B is given by rate =k[A][B]^(2) , then the reaction is

In the reaction 2A + B to A_2B , if the concentration of A is doubled and of B is halved, then the rate of the reaction will:

For a hypothetical reaction, A+B to C+D , the rate =k[A]^(-1//2)[B]^(3//2) . On doubling the concentration of A and B the rate will be

Rate law for the reaction A + 2B to C is found to be Rate = k [A] [B]. If the concentration of reactant B is doubled keeping the concentration of A constant, the value of rate constant will be

Rate law for the reaction A + 2B to C is found to be Rate =k[A][B] Concentration of reactant 'B' is doubled. Keeping the concentration of 'A' constant, the value of rate constant will be:

The rate of reaction between two reactants A and B decreases by factor 4 if the concentration of reactant B is doubled. The order of this reaction with respect to B is