When a reaction is progressing
When a reaction is progressing
- A
The rate of the reaction goes on increasing
- B
The concentration of the products goes on decreasing
- C
The concentration of the reactants goes on decreasing
- D
The reaction rate always remains constant
Similar Questions
The following data is given for reaction between $A$ and $B$
$S.NO.$
$[A]$ $mol.L^{-1}$
$[B]$ $mol.L^{-1}$
$Rate$ $mol.L^{-1}\,sec^{-1}$
$I$
$1 \times 10^{-2}$
$2 \times 10^{-2}$
$2 \times 10^{-4}$
$II$
$2 \times 10^{-2}$
$2 \times 10^{-2}$
$4 \times 10^{-4}$
$III$
$2 \times 10^{-2}$
$4 \times 10^{-2}$
$8 \times 10^{-4}$
Which of the following are correct statements -
$(a)$ Rate constant of the reaction $10^{-4}$
$(b)$ Rate law of the reaction is $k[A][B]$
$(c)$ Rate of reaction increases four times on doubling the concentration of both the reactant
The following data is given for reaction between $A$ and $B$
| $S.NO.$ | $[A]$ $mol.L^{-1}$ | $[B]$ $mol.L^{-1}$ | $Rate$ $mol.L^{-1}\,sec^{-1}$ |
| $I$ | $1 \times 10^{-2}$ | $2 \times 10^{-2}$ | $2 \times 10^{-4}$ |
| $II$ | $2 \times 10^{-2}$ | $2 \times 10^{-2}$ | $4 \times 10^{-4}$ |
| $III$ | $2 \times 10^{-2}$ | $4 \times 10^{-2}$ | $8 \times 10^{-4}$ |
Which of the following are correct statements -
$(a)$ Rate constant of the reaction $10^{-4}$
$(b)$ Rate law of the reaction is $k[A][B]$
$(c)$ Rate of reaction increases four times on doubling the concentration of both the reactant
A study of chemical kinetics of the reaction $A + B \to$ Products, gave the following data at $25\,^oC$.
Exp. No.
[A]
[B]
Rate
$1.$
$1.0$
$0.15$
$4.2 × 10^{-6}$
$2.$
$2.0$
$0.15$
$8.4 × 10^{-6}$
$3.$
$1.0$
$0.20$
$5.6 × 10^{-6}$
Find out rate law
A study of chemical kinetics of the reaction $A + B \to$ Products, gave the following data at $25\,^oC$.
| Exp. No. | [A] | [B] | Rate |
| $1.$ | $1.0$ | $0.15$ | $4.2 × 10^{-6}$ |
| $2.$ | $2.0$ | $0.15$ | $8.4 × 10^{-6}$ |
| $3.$ | $1.0$ | $0.20$ | $5.6 × 10^{-6}$ |
Find out rate law
The rate constant of which of the following reactions is independent of concentration of the reactants ?
The rate constant of which of the following reactions is independent of concentration of the reactants ?
The data for the reaction $A + B \to C$ is
Exp
$[A]_0$
$[B]_0$
initial rate
$1$
$0.012$
$0.035$
$0.10$
$2$
$0.024$
$0.035$
$0.80$
$3$
$0.012$
$0.070$
$0.10$
$4$
$0.024$
$0.070$
$0.80$
The data for the reaction $A + B \to C$ is
| Exp | $[A]_0$ | $[B]_0$ | initial rate |
| $1$ | $0.012$ | $0.035$ | $0.10$ |
| $2$ | $0.024$ | $0.035$ | $0.80$ |
| $3$ | $0.012$ | $0.070$ | $0.10$ |
| $4$ | $0.024$ | $0.070$ | $0.80$ |
Half-life period of a first order reaction is $1386$ seconds. The specific rate constant of the reaction is
Half-life period of a first order reaction is $1386$ seconds. The specific rate constant of the reaction is
- [AIPMT 2009]