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

In a reaction at equilibrium, x' mole of the reactant 'A' decompose to give I mole of C and D. It has been found that the fraction of A decomposed at equilibrium is independent of intial concentration of A. Find the value of x.

In which of the following cases, rate of disappearance of any reactant at a given instant equals to rate of appearance of any product

For a reaction A+Bto productss the rate of reactions is increased by 8 times when the concentration af A and B are doubled. The rate of reaction in doubled when the concentration of A alone is doubled. Then

For the reaction 2A+Bto Products, it is found that doubling the concentration of both reactants increases the rate by a factor of 8. But doubling the concentration of B alone, only doubles the rate. What is the order of the reaction w.r.t to A?

In the reaction of aA+bB+cCto Products, (i) If concentration of A is doubled, keeping conc. Of B and C constant the rate of reaction becomes double. (ii) If concentration of B is halved keeping conc. Of A and C constant, the rate of reaction remains unaffected (iii) If concentration of C is made 1.5 times, the rate of reaction becomes 2.25 times. The order of reaction is

A reaction is first order in A and second order in B. How the rate is affected (a) on increasing concentration of B three times and (b) on increasing concentration of both A and B twice ?

For a first order reaction (A)to products the concentration of A changes from 0.1 M to 0.025 M in 40 minutes. The rate of reaction when the concentration of A is 0.01 M is