For a reaction `2A + Bto` Products, doubling the initial concentration of both the reactants increases the rate by a factor of 8, and doubling the concentration of B alone doubles the rate. The rate law for the reaction is:

For the reaction A + B rarr C + D , doubling the concentration of both the reactants increases the reaction rate by 8 times and doubling the initial concentration of only B ismply doubles the reaction rate. What is the rate law for the reaction ?

IN the reaction, 2NO + CI_(2) to 2NOCI it has been found that doubling the concentration of both the reactants increases the rate by a factor of eight but doubling the chlorine concentration alone only doubles the rate. Which of the following statements is incorrect ?

If the concentration of the reactants is increased, the rate of reaction for first order-

If doubling the concentration of a reactant 'A' increases the rate 4 times and tripling the concentration of 'A' increases the rate 9 times, the rate is proportional to

If doubling the concentration of a reactant ‘A’ increases the rate 8 times and tripling the concentration of ‘A’ increases the rate 27 times, the rate is proportional to:

In a reaction , A + B rarr Product, rate is doubled when the concentration of B is doubled, and rate increases by a factor of 8 when the concentration of both the reactants (A and B) are doubled, rate law for the reaction can be written as

In a reaction A + B to Products (i) If the initial concentration of A is doubled and B is kept constant, the rate of the reaction is doubled (ii) If the initial concentration both A and B are doubled the rate of reaction becomes eight times The rate law of 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 the elementary reaction MrarrN , the rate of disappearance of M increases by a factor of 8 upon doubling the concentration of M . The order of the reaction will respect to M is

For the reaction A + B products, it is observed that: (1) on doubling the initial concentration of A only, the rate of reaction is also doubled and (2) on doubling te initial concentration of both A and B , there is a charge by a factor of 8 in the rate of the reaction. The rate of this reaction is given by