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JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced PDF Download

2022

Q1: Match the rate expressions in LIST-I for the decomposition of X with the corresponding profiles provided in LIST-II. Xs and k are constants having appropriate units.   [JEE Advanced 2022 Paper 1]

JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced(a) I → P ; II → Q; III → S ; IV → T
(b) I → R ; II → S ; III → S ; IV → T
(c) I → P ; II → Q; III → Q; IV → R
(d) I → R ; II → S ; III → Q; IV → R
Ans:
(a)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
In this case curve-R given in List-II will match.
∴ I → P, Q, R, S, T (The graph of half-life should start from origin)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced

2021

Q1: For the following reaction, JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced the rate of reaction is JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced 

Two moles of X are mixed with one mole of Y to make 1.0 L of solution. At 50 s, 0.5 mole of Y is left in the reaction mixture. The correct statement(s) about the reaction is(are)
(Use : ln 2 = 0.693)     [JEE Advanced 2021 Paper 2]
(a) A The rate constant, k, of the reaction is 13.86 × 10−4 s−1 
(b) Half-life of X is 50 s.
(c) At 50 s, JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced = 13.86 × 10−3 mol L−1 s−1.
(d) At 100 s, JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced = 3.46 × 10−3 mol L−1 s−1.
Ans:
(b, c, d)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced

As the concentration of reactant becomes half at t = 50 s. So, half-time of reaction is 50 s.
Given,
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
So, options (b), (c) and (d) are correct.

2020

Q1: JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced is known to undergo radioactive decay to form JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced by emitting alpha and beta particles. A rock initially contained 68 x 10-6 g of JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced If the number of alpha particles that it would emit during its radioactive decay of JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced in three half-lives is Z × 1018, then what is the value of Z?   [JEE Advanced 2020 Paper 1]
Ans:
1.2
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
Number of moles of JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced present initially
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
After three half-lifes, moles of JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced decayed
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced

Therefore, number of α-particles emitted
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
≈ 1.2 × 1018
Thus, the correct answer is 1.2.

Q2: Which of the following plots is(are) correct for the given reaction?
([P]0 is the initial concentration of P)     [JEE Advanced 2020 Paper 2]
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
(a)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced

(b)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
(c)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced

(d)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
Ans:
(a)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
This is first order reaction and for first order reaction JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
So, half-life is independent of initial concentration.
Therefore, the plot (a) correct.
For first order reaction,
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
Hence, plot (b) and (d) are incorrect. For first order reaction,
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
Hence, plot (c) is incorrect.

2019

Q1: The decomposition reaction JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advancedis started in a closed cylinder under isothermal isochoric condition at an initial pressure of 1 atm. After Y × 103 s, the pressure inside the cylinder is found to be 1.45 atm. If the rate constant of the reaction is 5 × 10-4s-1, assuming ideal gas behaviour, the value of Y is ...............   [JEE Advanced 2019 Paper 2]
Ans: 
2.3
At constant V, T
At initial t = 0 and final t = y × 103 sec
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced

pTotal = 1 − 2p + 2p + p

1.4 = 1 + p
p = 0.45 atm
According to first order reaction,
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
pi = 1 atm (given)
2p = 2 × 0.45 = 0.9 atm
On substituting the values in above equation,
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
Note : Unit of rate constant (k), i.e. s−1 represents that it is a first order reaction.

Q2: Consider the kinetic data given in the following table for the reaction A + B + C → Product.
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
The rate of the reaction for [A] = 0.15 mol dm-3, [B] = 0.25 mol dm-3 and [C] = 0.15 mol dm-3 is found to be Y × 10-5 mol dm-3s-1. The value of Y is _______    [JEE Advanced 2019 Paper 1]
Ans: 
6.75
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
⇒ x = 1
So, rate = k[A]1[C]1 
From exp-Ist,
Rate = 6.0 × 10−5 mol dm−3 s−1 
6.0 × 10−5 = k[0.2]1[0.1]1 
k = 3 × 10−3 
Given, [A] = 0.15 mol dm−3 
[B] = 0.25 mol dm−3 
[C] = 0.15 mol dm−3 
∴ Rate = (3 × 10−3) × [0.15]1[0.25]0[0.15]1 
= 3 × 10−3 × 0.15 × 0.15
Rate = 6.75 × 10−5 mol dm−3 s−1 
Thus, Y = 6.75

Q3: In the decay sequence.
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
x1, x2, x3 and x4 are particles/radiation emitted by the respective isotopes. The correct option(s) is(are)    [JEE Advanced 2019 Paper 1]
(a) Z is an isotope of uranium
(b) x2 is β-
(c) x1 will deflect towards negatively charged plate
(d) x3 is γ -ray
Ans:
(a, b, c)
In decay sequence,
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
X1 particle will deflect towards negatively charged plate due to presence of positive charge on α - particles.
Hence, options (a, b, c) are correct.

2018

Q1: Consider the following reversible reaction, A (g) + B (g) → AB (g).
The activation energy of the backward reaction exceeds that of the forward reaction by 2RT (in J mol −1). If the pre-exponential factor of the forward reaction is 4 times that of the reverse reaction, the absolute value of ΔG (in J mol−1) for the reaction at 300 K is ____________.
(Given; ln ⁡ (2) = 0.7 , RT = 2500 J mol−1 at 300 K and G is the Gibbs energy)     [JEE Advanced 2018 Paper 2]
Ans:
8500

At 300 K ,
For the reversible reaction,
A (g) + B (g) ⇌ AB (g)
(i) Pre-exponential factor for forward reaction (Af) = 4 × pre-exponential factor for backward reverse reaction (Ab)
Af = 4 × Ab 
(ii) Activation energy for backward reaction (Eb)f − Activation energy = 2 RT for forward reaction (Ea)f- Ab − Af  = 2 RT
(iii) Equilibrium constant JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced

JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
The expression for the change in Gibbs free energy of reaction (ΔG) is given as:
ΔG = ΔG + RT ln ⁡ k
At equilibrium, ΔG = 0
ΔG = − RT ln ⁡ Keq
Substituting the value of RT and ln ⁡ Keq 
ΔG = − 2500 J mol−1 × 3.4
ΔG = − 8500 J mol−1 
The absolute value of Gibbs free energy (ΔG) for the reaction at 300 K is 8500 J mol−1.

Q2: For a first order reaction A (g) → 2B(g) + C(g) at constant volume and 300 K , the total pressure at the beginning (t = 0) and at time t are P0 and P1 , respectively. Initially, only A is present with concentration [A]0 , and t1/3 is the time required for the partial pressure of A to reach 1/3rd of its initial value. The correct option(s) is (are) (Assume that all these gases behave as ideal gases)    [JEE Advanced 2018 Paper 2]
(a)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
(b)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
(c)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
(d)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced

Ans: (a, d)
Total pressure of gaseous mixture at beginning (T = 0) = P0 
Total pressure of gaseous mixture after time t (T = t) = Pt
Initial concentration of A = [A]0 
Temperature of the reaction mixture (T) = 300 K
For the first order reaction,
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
Total pressure after time (T = t) = P0 − P + 2P + P
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
According to integrated rate law for the first order reaction:
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
Comparing equation (ii) with equation of straight option line
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
y = c + mx

Plot of ln ⁡ (3 P0 − P) verses time (t) is represented as:
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & AdvancedOption (A) is correct.
(ii) For the first order reaction,
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
Substituting the value of Pt in eq (i)
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced is independent of concentration of (A).
Option (B) is not correct.
(iii) At any time t , rate constant (k) is independent of concentration of [A].
For example:
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced
Hence, Option (D) is correct.
JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced

The document JEE Advanced Previous Year Questions (2018 - 2023): Chemical Kinetics | Chemistry for JEE Main & Advanced is a part of the JEE Course Chemistry for JEE Main & Advanced.
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