Which order of reaction obeys the relation t1/2 = 1/Ka?
(a) First
(b) Second
(c) Third
(d) Zero
The chemical reaction, 2O3 3O2 proceeds as follows;
O3 O2 + O .....(Fast)
O+O3 2O2 ....(Slow)
The rate law expression should be:
(a) r = K[O3]2
(b) r = K[O3]2[O2]-1
(c) r = K[O3][O2]
(d) unpredictable
The rate of reaction becomes 2 times for every 10°C rise in temperature. How the rate of reaction will increase when temperature is increased from 30°C to 80°C?
(a) 16
(b) 32
(c) 64
(d) 128
The fraction of a reactant showing first-order reaction remains after 40 minutes if t1/2 is 20 minutes -
1. 1/4
2. 1/2
c. 1/8
4. 1/6
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:
(a) r = K[NO2]2[F2]
(b) r = K[NO2 ][F2]
(c) r = K[NO2]
(d) 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 :
(a) rate constant for forward reaction = 2 x 10-4
(b) rate constant for backward reaction = 3 x 105
(c) equilibrium constant for the reaction = 6.6 x 10-10
(d) all of the above
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 rate constant of a first order reaction is 4x10-3 sec-1. At a reactant concentration of 0.02 M, the rate of reaction would be:
(a) 8 x 10-5 Msec-1
(b) 4 x 10-3 Msec-1
(c) 2 x 10-1 Msec-1
(d) 4 x 10-1 Msec-1