`A+2B to 3C+2D`
The rate of disappearance of B is `1 xx 10^-2` mole lit^-1 sec^-1` What will be the Rate of change in concentration of A and C?

A+2B to 3C+2D The rate of disappearance of B is 1 xx 10^-2 mol lit^-1 sec^-1 What will be the rate of reaction

The rate of a reaction is 1.2xx10^-3 L mol^-1s^-1 , What is the order of the reaction?

In the reaction, A+2Brarr3C+4D, the rate of disappearance of B at a given time is 10^(-2)"mol. "L^(-1).s^(-1) Calculate the rate of reaction

The initial rate of a first order reaction is 5.2 xx 10^(-6)" mol.lit"^(-1).s^(-1) at 298 K. When the initial concentration of reactant is 2.6xx10^(-3)" mol.lit"^(-1) , calculate the first order rate constant of the reaction at the same temperature.

The value of rate constant for a first order reaction is 2.303 xx 10^-2 sec^-1 . What will be the time required to reduce the concentration to 1/(10)th of its initial concentration?

In the reaction , 4A+bBrarrcC+dD , the rate of disappearance of A andB are 0.064 and 0.08"mol L"^(-1).s^(-1) , respectively . The rate of formation of C and D are 0.064 and 0.096"mol.L"^(-1).s^(-1) , respectively . Find the values of b , c and d.

At a particular time , in the reaction aA+bBrarrcD , if the rate of disappearance of B is thrice that of A and the rate of formation of D is twice the rate of disappearance of A , then the ratio between a, b and c will be -

Express the rate of following reaction in terms of different reactants and products of 4NH_3(g)+5O_2(g)rarr4NO(g)+6H_2O(g) If the rate of formation of NO is 3.6xx10^-3 mole/lit sec^-1 Calculate: The rate of disappearance of NH_3

For the first order reaction, the rate constant is 7.7xx10^-2 sec^-1 . Calculate the time required for the initial concentration 1.5 mole of the reactant to be reduced to 0.75 mole.

N_2(g)+3H_2(g)=2NH_3(g) What is the rate of disappearance of N_2 and H_2 is the rate of formation be 0.56 mol L^-1 s^-1 . Show that infinite time required for completion of 1st order reaction.