In the following reaction, rate constant is `1.2 xx 10^(–2)" Ms"^(–1) A rarr B`. What is concentration of B after 10 and 20 min., if we start with 10 M of A.

In the following reaction A rarr B+C , rate constant is 0.001Ms^(-1) . If we start with 1M of A then , cond, of A and B after 10 minutes are respectively.

In the following reaction A rarr B+C , rate constant is 0.001Ms^(-1) . If we start with 1M of A then , cond, of A and B after 10 minutes are respectively.

The rate of first-order reaction is 1.5 xx 10^(-2) M "min"^(-1) at 0.5 M concentration of reactant. The half-life of reaction is

The rate of first-order reaction is 1.5 xx 10^(-2) M "min"^(-1) at 0.5 M concentration of reactant. The half-life of reaction is

In the reaction AtoB+C , rate constant is 0.001Ms^(-1) . If we start with 1 M of A then conc. Of A and B after 10 minutes are respectively :

In the reaction AtoB+C , rate constant is 0.001Ms^(-1) . If we start with 1 M of A then conc. Of A and B after 10 minutes are respectively :

The specific reaction rate constant for a first order reaction is 1xx10^(-2)s^(-1) . If the initial concentration is 1 M , find the initial rate . What is the reaction rate after two minutes ?

The reaction A (g) rarr B(g) + 2C (g) is a first order reaction with rate constant 3465 xx 10^(–6) s^(–1) . Starting with 0.1 mole of A in 2 litre vessel, find the concentration of A after 200 sec., when the reaction is allowed to take place at constant pressure and temperature.

The rate constant for an isomerization reaction, A rarr B is 4.5 xx 10^(-3) min^(-1) . If the initial concentration of A is 1 M , calculate the rate of the reaction after 1 h .

The rate constant for an isomerization reaction, A rarr B is 4.5 xx 10^(-3) min^(-1) . If the initial concentration of A is 1 M , calculate the rate of the reaction after 1 h .