The elementary reaction A + B → products has k = 2 × 10-5 M-1 s-1 at a temperature of 27 °C. Several experimental runs are carried out using stoichiometric proportion. The reaction has a temperature coefficient value of 2.0. At what temperature should the reaction be carried out if, in spite of halving the concentrations, the rate of reaction is desired to be 50 % higher than in the previous run?

(Given ln6ln2.585)

1. 47 °C                                           

2. 53 °C

3. 57 °C                                           

4. 37 °C

Subtopic:  First Order Reaction Kinetics |
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When the temperature of a reaction increases from 27 oC to 37 oC, the rate increases by 2.5 times. The activation energy in the temperature range will be:

1. 53.6 kJ                                             

2. 12.61 kJ

3. 7.08 kJ                                             

4. 70.8 kJ

Subtopic:  Arrhenius Equation |
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For the reaction R-X+OH ROH+X- The rate is given of

Rate=5.0×10-5R-XOH-+0.20×10-5R-X what percentage of R-X Reaction by SN2 mechanism when OH-=1.0×10-2M

1. 96.1%                                                         

2. 3.9%

3. 80%                                                           

4. 20%

Subtopic:  Order, Molecularity and Mechanism |
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The graph that represents a first-order reaction is:

1.  2.
3. 4.
Subtopic:  First Order Reaction Kinetics |
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The rate of a reaction increases 4-fold when concentration of reactant is increased 16 times.

If the rate of reaction is 4 × 10-6 mol L-1s-1 when concentration of the reactant is 4 × 10-4  mol L-1, the rate constant of the reaction will be : 

1. 2 × 10-4 m1/2 L-1/2 s-1                            

2. 1 × 10-2 s-1

3. 4 × 10-4 mol-1/2 L-1/2 s-1                         

4. 25 mol-1L min-1                              

Subtopic:  First Order Reaction Kinetics |
 58%
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If ‘a’ is the initial concentration of a substance which reacts according to zero-order kinetics and k is the rate constant, the time for the reaction to go to completion will be:

1. a/k 2. 2/ka
3. k/a 4. Infinite
Subtopic:  Definition, Rate Constant, Rate Law | First Order Reaction Kinetics |
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The decomposition of a gaseous compound yields the following information:

Initial pressure, atm 1.6 0.8 0.4
Time for 50 % reaction, min 80 113 160
The order of the reaction will be:
1. 1.0 2. 1.5
3. 2.0 4. 0.5
Subtopic:  Definition, Rate Constant, Rate Law |
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For a given reaction the concentration of the reactant plotted against time gave a straight line with negative slope.

The order of the reaction will be:

1. 3                                                      

2. 2

3. 1                                                      

4. 0

Subtopic:  Order, Molecularity and Mechanism |
 66%
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The rate constant of a first-order reaction is typically determined from a plot of:

1. Concentration of reactant vs time t

2. Log (concentration of reactant) vs time t

3. \(\frac{1}{\text { concentration of reactant }} \text { vs time } t\)
4. Concentration of reactant vs log time t

Subtopic:  First Order Reaction Kinetics |
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The relationship between temperature and the variance in reaction rate is:

1.  2.
3. 4.
Subtopic:  Arrhenius Equation |
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