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Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET PDF Download

Problem : 1 

In gaseous reactions important for understanding of the upper atmosphere H2O and O react bimolecularly to form two OH radicals. DH for this reaction is 72kJ/mol at 500 K and Ea = 77 kJ/mol, then Ea for two bimolecular recombination of 2OH radicals to form H2O & O is 

(A) 3 kJ mol-1 
 (B) 4 kJ mol-1
 (C) 5 kJ mol-1
 (D) 7 kJ mol-1  

 

Sol. As ΔH is positive, therefore reaction is endothermic

This is the energy profile diagram for an endothermic reaction.

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET

Now when the products is converted back to reactant the energy of activation is x as shown in fig.

Evidently x = Ea - ΔH

= (77 - 72) = 5 kJ mol-1 Therefore, (C)

 

Problem : 2 

In a certain reaction 10% of the reactant decomposes in the first hour, 20% is second hour, 30% in third hour and so on. What are the dimensions of rate constant. 

(A) hour-1 
 (B) mol lit-1 sec-1
 (C) lit mol-1 sec-1
 (D) mol sec-1 

 

Sol. If the amount of products formed which is 10%, 20% and 30% is plotted against time i.e., 1 hr, 2 hr and 3 hr respectively, it is a straight line passing through the origin.

Therefore, it is a zero order reaction where x = kt ⇒ Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET = k

Therefore, dimensions of k = moles lit-1 sec-1

Therefore, (B)


Problem : 3 

Two substances A(t½ = 5 mins) and B(t½ = 15 mins) are taken is such a way that initially [A] = 4[B]. The time after which the conentration of both will be equal is 

(A) 5 min 

(B) 15 min 

(C) 20 min

(D) concentration can never be equal 


Sol. t½ of A is 5 min

Therefore, in 15 mins it will become 1/8 of initial and t½ of B is 15 mins

Therefore, in 15 mins it will become ½ of initial

Therefore, ratio of [A] : [B] after 15 min is 4 : 1

But given [A] = 4[B]

Therefore, [A] = [B] after 15 min

Therefore, [B]


Problem : 4 

The reaction A(g) 2B(g) → C(g) D(g) is an elementary process. In an experiment, the initial partial pressure of A & B are PA = 0.60 and PB = 0.80 atm. When Pc = 0.2 atm the rate of reaction relative to the initial rate is 

(A) 1/48 

(B) 1/24 

(C) 9/16 

(D) 1/6 


Sol. 

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET

(Rate)i = k[A] [B]2 = k[0.6][0.8]2

(Rate)t = k[0.4] [0.4]2

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET = Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET Therefore, [D]


Problem : 5 

For a hypothetical reaction A B → C D, the rate = k[A]-1/2[B]3/2. On doubling the concentration of A and B the rate will be 

(A) 4 times 

(B) 2 times 

(C) 3 times 

(D) none of these 


Sol. k = k[2]-1/2 [2]3/2 = k[2]3/2-1/2 = k = [2]1 = 2k

Therefore, [B]


Problem : 6 

An organic compound A decomposes by following two parallel first order mechanisms :
 

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET ; Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET , k1 = 0.693 hr -1 

Select the correct statement(s) 

(A) If three moles of A are completely decomposed then 2 moles of B and 1 mole of C will be formed. 

(B) If three moles of A are completely decomposed then 1 moles of B and 2 mole of C will be formed. 

(C) half life for the decomposition of A is 20 min 

(D) half life for the decomposition of B is 0.33 min 


Sol. BC 

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET


Problem : 7 

For any Ist  order gaseous reaction A → 2B Pressure devoloped after 20 min is 16.4 atm and after very long time is 20 atm. What is the total pressure developed after 10 min. 

(A) 12 

(B) 13 

(C) 14 

(D) 15 


Sol. C

A(g) Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET 2B(g)

t = 0 PO -

t = 10 PO - P 2P

t = 20 PO - P' 2P'

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET - 2P

2PO = 20 Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEETPO = 10

16.4 = PO - P' 2P'

16.4 = 10 P'

P' = 6.4

for first order reaction at equal time conc/pr is in G. P.

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET, Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET

3.6 × 10 = (10 - P)2

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET

10 - P = 6

P = 4

P10 min = PO P = 10 4 = 14 atm


Problem : 8 

For any reaction, 2A → B, rate constant of reaction is 0.231 min-1. Time (in sec) when 25% of A will remain unreacted. 

(A) 150 

(B) 180 

(C) 200 

(D) 140 


Sol.

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET, Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET

= 3 mm

= 180 sec


Problem : 9 

For any reaction A(g) → B(g), rate constant k = 8.21 × 10-2 atm/min at 300 K. If initial concentration of A is 2M then what is the half life (in hr.)? 

(A) 5 

(B) 6 

(C) 7 

(D) 8 


Sol. A

Rate = k = Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEETSolved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET

t1/2 = Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET = 300 min

= 5 hr.


Problem : 10 

2A Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET B C 

The mechanism of the above reaction given as 

2A Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET X 2B (fast) 

X B Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET C (slow) 

E1 = Activation energy for K1 

E2 = Activation energy for K

E3 = Activation energy for K3 

Calculate Ereaction 

(given : E1 = 10 kJ, E3 = 5 kJ, E2 = 12 kJ) 

(A) 5 

(B) 6 

(C) 7 

(D) 3 


Sol. D

rate = K3 [x][B]

Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET, [X] = Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET

rate = k3 . Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET, = k3 . Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET.Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET

Keff  = Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET, Etotal = E1 E3 - E2

= 3kJ

The document Solved Objective Problems: Chemical Kinetics | Chemistry Class 12 - NEET is a part of the NEET Course Chemistry Class 12.
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FAQs on Solved Objective Problems: Chemical Kinetics - Chemistry Class 12 - NEET

1. What is chemical kinetics?
Ans. Chemical kinetics is the branch of chemistry that studies the rates of chemical reactions and the factors that influence them. It involves analyzing the speed at which reactants are converted into products and understanding the underlying mechanisms of the reaction.
2. What are the factors that can influence the rate of a chemical reaction?
Ans. Several factors can affect the rate of a chemical reaction, including temperature, concentration of reactants, presence of catalysts, surface area, and pressure (in case of gas-phase reactions). These factors can either increase or decrease the rate of the reaction, depending on the specific reaction and conditions.
3. How does temperature affect the rate of a chemical reaction?
Ans. Temperature has a significant impact on the rate of a chemical reaction. Generally, increasing the temperature increases the rate of reaction as it provides more energy to the reactant molecules, leading to more frequent and energetic collisions. This can result in increased reaction rates and faster formation of products.
4. What is a catalyst and how does it affect the rate of a chemical reaction?
Ans. A catalyst is a substance that increases the rate of a chemical reaction without being consumed in the process. It works by providing an alternative reaction pathway with a lower activation energy, making it easier for the reactant molecules to undergo the reaction. Catalysts can significantly speed up reactions and are often used in industrial processes to increase efficiency.
5. How can the rate of a chemical reaction be determined experimentally?
Ans. The rate of a chemical reaction can be determined by measuring the change in concentration of reactants or products over time. This can be done using various techniques such as spectrophotometry, titration, or monitoring pressure changes in gas-phase reactions. By analyzing the data obtained from these experiments, the rate equation and rate constant of the reaction can be determined.
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