A decomposes as . The rate of appearance of B, taking 2 M concentration of A, is equal to :

For the reaction 4A+B rarr 2C+2D the statement not correct is :- ( A )Rate of disappearance of B is one fourth of the disappearance of A (B) Rate of appearance of C is half the rate of disappearance of B (C) Rate of formation of D is half the rate of consumption of A (D) Rate of formation of C and D is same

The reaction A+B to products is first order in each of the reactants. (a) How does the rate of reaction change if the concentration of A is increased by factor 3 ? (b) What is the change in the rate of reaction if the concentration of A is halved and concentration of B is doubled ?

For the reaction A+BrarrC , the rate law is : Rate=k [A]^(2) . Which change(s) will increase the rate of the reaction? (P) Increasing the concentration of A (Q) Increasing the concentration of B

Consider the hypothetical reaction : A + 2B rarr C The rate remains constant when the concentration of A is doubled and the concentration of B is held concentration of B is doubled and the concentration of A is held constant. What are the orders of A and B in this reaction?

The rate law for a certain reaction is found to be : Rate = k[A] [B]^(2) How will the rate of this reaction compare if the concentration of A is doubled and the concentration of B is halved ? The rate will :

The rate of change in concentration of C in the reaction, 2A+Brarr 2C+3D , was reported as 1.0 mol litre^(-1) sec^(-1) . Calculate the reaction rate as well as rate of change of concentration of A, B and D.

A chemical reaction 2A rarr 4B+C , in gaseous phase shows an increase in concentration of B by 5xx10^(-3) M in 10 second. Calculate: (a) rate of appearance of B , (b) rate of the reaction, (c ) rate of disappearance of A .

The experimental curve obtained when the rate of a reaction is plotted against the concentration of the reactant, appeared parallel to the concentration axis after sometime in a reaction. This indicates that