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Class 12 Chemistry Chapter 4 Chemical Kinetics MCQs | Class 12 Chemistry Chapter 4 Chemical Kinetics Objective Type Questions and Answers

(1) The rate constant of a reaction depends upon
[A] temperature of the reaction
[B] extent of the reaction
[C] initial concentration of the reactants
[D] the time of completion of reaction
Answer: the time of completion of reaction
(2) For a reaction nx – y → z the rate of reaction becomes twenty seven times when the concentration of X is increased three times. What is the order of the reaction?
[A] 2
[B] 1
[C] 0
[D] 3
Answer: 3
(3) Fora reaction x + y → z, rate ∝ |X|. What is (i) moleculariiy and (ii) order of reaction?
[A] (i)2, (ii)1
[B] (i)2, (ii)2
[C] (i)1, (ii)1
[D] (i)1, (ii) 2
Answer: (i)2, (ii)1
(4) The unit of rate constant for the reaction
2H2 + 2NO → 2H2O + N2
which has rate = K|H2||NO|², is
[A] mol L-1 s-1
[B] s-1
[C] mol-2 L² s-1
[D] mol L-1
Answer: mol-2 L² s-1
(5) Which of the following, is an example of a fractional order reaction?
[A] NH4NO2 → N2 + 2H2O
[B] NO + O3 → NO2 + O2
[C] 2NO + Br2 → 2NOBr
[D] CH3CHO → CH4 + CO
Answer: CH3CHO → CH4 + CO
(6) A reaction in which reactants (R) are converted into products (P) follows second order kinetics. If concentration of R is increased by four times, what will be the increase in the rate of formation of P?
[A] 9 times
[B] 4 times
[C] 16 times
[D] 8 times
Answer: 16 times
(7) The decomposition of dimethyl ether is a fractional order reaction. The rate is given by rate =k(PCH3OCH3)3/2. If the pressure is measured in bar and time in minutes, then what are the units of rate and rate constant?
[A] bar min-1, bar2 min-1
[B] bar min-1, bar1/2 min-1
[C] bar1/2 min-1, bar2 min-1
[D] bar min-1, bar1/2 min-1
Answer: bar min-1, bar1/2 min-1
(8) In a reaction, 2X → Y, the concentration of X decreases from 0.50 M to 0.38 M in 10 min. What is the rate of reaction in Ms-1 during this interval ?
[A] 2 × 10-4
[B] 4 × 10-2
[C] 2 × 10-2
[D] 1 × 10-2
Answer: 2 × 10-4
(9) If the rate of a reaction is expressed by, rate = A [A]² [B], the order of reaction will be
[A] 2
[B] 3
[C] 1
[D] 0
Answer: 3
(10) For a first order reaction A → B the rate constant is x min1 . If the initial concentration of A is 0.01M , the concentration of A after one hour is given by the expression.
[A] 0.01 e−x
[B] 1 x10-2 (1-e-60x)
[C] (1x10-2) e-60x
[D] none of these
Answer: (1x10-2) e-60x
(11) A zero order reaction X →Product , with an initial concentration 0.02M has a half life of 10 min. if one starts with concentration 0.04M, then the half life is
[A] 10 s
[B] 5 min
[C] 20 min
[D] Cannot be predicted using the given information
Answer: 20 min
(12) For a first order reaction A → product with initial concentration x mol L1 , has a half life period of 2.5 hours . For the same reaction with initial concentration (x/2) mol L1 the half life is
[A] (2.5 × 2) hours
[B] (2.5 / 2) hours
[C] 2.5 hours
[D] Without knowing the rate constant, t1/2 cannot be determined from the given data
Answer: Without knowing the rate constant, t1/2 cannot be determined from the given data
(13) The decomposition of phosphine (PH3) on tungsten at low pressure is a first order reaction. It is because the
[A] rate is proportional to the surface coverage
[B] rate is inversely proportional to the surface coverage
[C] rate is independent of the surface coverage
[D] rate of decomposition is slow
Answer: rate is independent of the surface coverage
(14) For a reaction Rate = k[acetone]3/2 acetone then unit of rate constant and rate of reaction respectively is
[A] (mol L-1s-1), (mol-1/2 L1/2 s-1)
[B] (mol-1/2 L1/2s-1), (mol L-1 s-1)
[C] (mol1/2 L1/2s-1), (mol L-1 s-1)
[D] (mol Ls-1), (mol1/2 L1/2 s-1)
Answer: (mol-1/2 L1/2s-1), (mol L-1 s-1)
(15) The addition of a catalyst during a chemical reaction alters which of the following quantities?
[A] Enthalpy
[B] Activation energy
[C] Entropy
[D] Internal energy
Answer: Activation energy
(16) Consider the following statements :
(i) increase in concentration of the reactant increases the rate of a zero order reaction.
(ii) rate constant k is equal to collision frequency A if Ea = 0
(iii) rate constant k is equal to collision frequency A if Ea = °
(iv) a plot of ln(k) vs T is a straight line
(v) a plot of ln (k) vs 1/T is a straight line with a positive slope.
Correct statements are
[A] (ii) only
[B] (ii) and (iv)
[C] (ii) and (v)
[D] (i), (ii) and (v)
Answer: (ii) only
(17) In a reversible reaction, the enthalpy change and the activation energy in the forward direction are respectively −x kJ mol1 and y kJ mol1 . Therefore , the energy of activation in the backward direction is
[A] ( y x ) kJ mol1
[B] ( x + y )J mol1
[C] ( x y ) kJ mol1
[D] ( x + y ) × 103 J mol1
Answer: ( x + y ) × 103 J mol1
(18) What is the activation energy for a reaction if its rate doubles when the temperature is raised from 200K to 400K? (R = 8.314 JK-1mol-1)
[A] 234.65 kJ mol1K1
[B] 434.65 kJ mol1K1
[C] 334.65 J mol1K1
[D] 434.65 J mol1K1
Answer: 434.65 J mol1K1
(19) Assertion: rate of reaction doubles when the concentration of the reactant is doubles if it is a first order reaction.
Reason: rate constant also doubles
[A] Both assertion and reason are true and reason is the correct explanation of assertion
[B] Both assertion and reason are true but reason is not the correct explanation of assertion
[C] Assertion is true but reason is false
[D] Both assertion and reason are false
Answer: Assertion is true but reason is false
(20) The rate constant of a reaction is 5.8 × 10−2 s−1 . The order of the reaction is
[A] First order
[B] zero order
[C] Second order
[D] Third order
Answer: First order

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