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Test: Integrated Rate Equations (November 22) - NEET MCQ


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10 Questions MCQ Test Daily Test for NEET Preparation - Test: Integrated Rate Equations (November 22)

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Test: Integrated Rate Equations (November 22) - Question 1

The half life of a first order reaction is equal to:

Detailed Solution for Test: Integrated Rate Equations (November 22) - Question 1

The correct answer is Option C
For a first-order reaction, the half-life is given by: t1/2 = 0.693/k

Test: Integrated Rate Equations (November 22) - Question 2

For zero order reaction, linear plot was obtained for [A] vs t, the slope of the line is equal to:

Detailed Solution for Test: Integrated Rate Equations (November 22) - Question 2

For zero order reaction the rate equation is [A] = -kt + [Ao]

Thus the slope of the line is -ko

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Test: Integrated Rate Equations (November 22) - Question 3

The first order rate constant for the decomposition of N2O5 is 6.2 x 10-4 sec-1. The t1/2 of the decomposition reaction is

Detailed Solution for Test: Integrated Rate Equations (November 22) - Question 3

The correct answer is option  B
t1/2​ = k0.693​
    = 0.693​/(6.2 × 10− 4)​ = 1117.7s

Test: Integrated Rate Equations (November 22) - Question 4

 Find the overall order of a reaction whose rate constant is k = 3x10-4 s-1

Detailed Solution for Test: Integrated Rate Equations (November 22) - Question 4

The correct answer is option D
Units:- for K can be calculated by (Mole)1-n (Litre )n-1 Time -1...
Here,n is the order of the reaction ....
On substituting n = 1.
We get, K units as;
K = (Mole)1-1( Litre)1-1 sec-1.
K=sec-1.......

Test: Integrated Rate Equations (November 22) - Question 5

 Which of the following represents the expression for the 3/4th life of a first order reaction?
 

Detailed Solution for Test: Integrated Rate Equations (November 22) - Question 5

The correct answer is option A
As we know, for a first order reaction,

Test: Integrated Rate Equations (November 22) - Question 6

The type of reaction that gives constant half life is

Detailed Solution for Test: Integrated Rate Equations (November 22) - Question 6

The correct answer is Option A
For first order reaction, the half-life period is independent of initial concentration.
For first order reaction, the half-life period expression (t1/2) is given by the expression t1/2= , where k is the rate constant.

Test: Integrated Rate Equations (November 22) - Question 7

The half life period of first order reaction is 15 min. Its rate constant will be equal to

Detailed Solution for Test: Integrated Rate Equations (November 22) - Question 7

The half life of a reaction is 15 min
So,
Here we go..
Formula to be used :

K =0.693/t = 0.693/15
__= 0.462/10 = 0.0462 min^-1

Test: Integrated Rate Equations (November 22) - Question 8

 For zero order reaction, the integrated rate equation is:

Test: Integrated Rate Equations (November 22) - Question 9

The half life of a zero order reaction is equal to:

Detailed Solution for Test: Integrated Rate Equations (November 22) - Question 9

[A] = -kt + [A]0
Here, [A] = [A0]/2
[A]0/2 = -kt + [A]0
kt = [A]0 - [A]0/2
t = [A]0/2k
t1/2 = [A]0/2k

Test: Integrated Rate Equations (November 22) - Question 10

If [A] is the concentration of reactant A at any time t and [Ao] is the concentration at t=0, then for the first order reaction the rate equation can be written as:

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