The rate law for the reaction below is given by the expresssion `K[A][B]`.
`A+B to` product
If the concentration of B is increased from 0.1 to 0.3 mole, keeping the value of A at 0.1, mole the rate constant will be :

In a reaction 2A to Product the concentration of A decreases from 0.8 mole/L to 0.3 mole/L in 20 min. The rate of the reaction during this interval of time is

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

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

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:

In a reaction 2X to Y , the concentration of X decreases from 3.0 mole/litre to 2.0 moles/litre in 5 minutes. The rate of reaction is

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

What is the concentration of the reactant in a first order reaction when the rate of the reaction is 0.6 s-1 and the rate constant is 0.035?

For a hypothetical reaction Ararr B , the rate constain is 0.25 s^(-1) . If the concentration of A is reduced to half, then the value of rate constant is