The conversion of molecules of X to Y follows second order kinetics. If concentration of X is increases to three how will it affect the rate of formation of Y?

The conversion of molecule A to B follows second order kinetics its rate equation for the second order reaction is rate = K[A]^2.If the concentration of A is increased to 4 times how will it affect the formation of B.

The conversion of molecule A to B follows second order kinetics. Indicate the order and molecularity of the reaction given below: C_12H_22O_11+H_2OoversetHtoC_6H_12O_6+C_6H_12O_6

Find second order derivative for x=ct and y=c/t

The reaction A rarr X is a first order reaction which takes place in a vessel with initial concentration of A as 10 M. The rate constant for this reaction is 4.16 h^(-1) . In the presence of a catalyst, the reaction A rarr Y follows second-order kinetics and the rate constant is 0.2 min^(-1) M^(-1) . What should be the initial concentration of A in the presence of catalyst so that the value of t_(1//2) for both the reactions is the same?

A substance with initial concentration 'a' follows zero order kinetics. In how much time will the reaction go to completion?

For a chemical reaction X rarr Y , the rate of reaction increases by a factor of 1.837 when the concentration of X is increased by 1.5 times, the order of the reaction with respect to X is :

Find second order derivative for y=(logx)/x

A reaction is first order in A and second order in B.How is the rate affected when the concentrated of B is doubled?