For the reaction 2NO2 + F2 → 2NO2F, following
mechanism has been provided,
NO2 + F2 NO2F+F
NO2 + F NO2F
Thus, rate expression of the above
reaction can be written as:
1. r = K[NO2]2[F2]
2. r = K[NO2 ][F2]
3. r = K[NO2]
4. r = K[F2]
For the reaction:
[Cu(NH3)4]2+ + H2O[Cu(NH3)3H2O]2+ + NH3
the net rate of reaction at any time is given by, net rate =
2.0x10-4 [Cu(NH3)4]2+[H2O] - 3.0x105 [Cu(NH3 )3 H20]2+[NH3]
Then correct statement is/are :
1. rate constant for forward reaction = 2 x 10-4
2. rate constant for backward reaction = 3 x 105
3. equilibrium constant for the reaction = 6.6 x 10-10
4. all of the above
Rate constant of reaction can be expressed by Arrhenius equation as,
In this equation, represents:
1. the energy above which all the colliding molecules will react
2. the energy below which colliding molecules will not react
3. the total energy of the reacting molecules at a temperature, T
4. the fraction of molecules with energy greater than the activation energy of the reaction
Consider the chemical reaction,
The rate of this reaction can be expressed in terms of time derivative of concentration of and .
The correct relationship amongest the rate expressions is:
(1) Rate
(2) Rate
(3) Rate
(4) Rate
For a first order reaction A Product, the initial concentration of A is 0.1 M and after 40 minute it becomes 0.025 M. Calculate the rate of reaction at reactant concentration of 0.01M:
1. 3.47x10-4 M min-1
2. 3.47x10-5 M min-1
3. 1.735 x 10-6 M min-1
4. 1.735 x10-4 M min-1
Select the intermediate in the following reaction mechanism:
O3(g) O2(g) +O(g)
O(g) +O3(g) 2O2(g)
1. O3(g)
2. O(g)
3. O2(g)
4. none of these
A reactant with initial concentration 1.386 mol litre-1 showing first order change takes 40 minute to become half. If it shows zero order change taking 20 minute to becomes half under the similar conditions, the ratio, K1/K0 for first order and zero order kinetics will be:
1. 0.5 mol-1 litre
2. 1.0 mol/litre
3. 1.5 mol/litre
4. 2.0 mol-1 litre
In a first order reaction, the concentration of the reactant is decreased from 1.0 M to 0.25M in 20 minute. The rate constant of the reaction would be:
1. 10min-1
2. 6.931 min-1
3. 0.6931 min-1
4. 0.06931 min-1
The following mechanism has been proposed for the reaction of NO with Br2 to form NOBr:
NO(g) + Br2(g) NOBr2(g)
NOBr2(g) + NO(g) 2NOBr(g)
If the second step is the rate determining step, the order of the reaction with respect to NO(g) will be:
1. 1
2. 0
3. 3
4. 2
For the reaction , at the point of intersection of two curves show, the [B] is can be given by:
1.
2.
3.
4.