Chemical Kinetics MCQs With Answers – Part 2 (Class 12 Chemistry)
GKaim: Measure. Improve. Achieve.

Chemical Kinetics MCQs with Answers – Part 2 (Class 12 Chemistry)

Timer: Off
Random: Off

111. The rate law is \(r=k[A][B]^2\). A solution containing fixed amounts of \(A\) and \(B\) is suddenly diluted to twice its original volume, with temperature unchanged. Immediately after dilution, the rate becomes:
ⓐ. one-half of the original rate
ⓑ. one-fourth of the original rate
ⓒ. one-eighth of the original rate
ⓓ. one-sixteenth of the original rate
112. The claim “doubling the concentration of any reactant always doubles the reaction rate” is unreliable because:
ⓐ. concentration can never be changed without altering temperature
ⓑ. the rate response depends on its rate-law exponent
ⓒ. rate constants become zero when concentration is doubled
ⓓ. reaction rates are independent of all concentrations
113. Compressing a gaseous reaction mixture at constant temperature generally raises the concentrations of gaseous reactants because:
ⓐ. the molar masses of the reactants increase
ⓑ. the activation energy automatically decreases
ⓒ. the gas occupies a smaller volume
ⓓ. the gas constant becomes larger
114. Raising the external gas pressure has no necessary direct effect on the rate of a reaction occurring only between dissolved non-gaseous reactants because:
ⓐ. solution reactions never depend on concentration
ⓑ. reactant concentrations in solution may barely change
ⓒ. pressure can affect only equilibrium and never kinetics
ⓓ. dissolved reactants always behave as zero-order species
115. For ideal gaseous reactants, evaluate the effects described below. Statement I: At fixed temperature, the partial pressure of a gas is proportional to its molar concentration. Statement II: The rate response to pressure depends on the powers of gaseous-reactant terms in the rate law. Statement III: Doubling every reactant partial pressure does not always merely double the rate. The valid statements are:
ⓐ. I and II only
ⓑ. II and III only
ⓒ. I and III only
ⓓ. I, II and III
116. An inert gas is added to a reacting ideal-gas mixture at constant temperature and constant volume. The total pressure rises, but the amounts and partial pressures of the reacting gases remain unchanged. The immediate reaction rate:
ⓐ. remains unchanged because the reactant partial pressures remain unchanged
ⓑ. doubles because the total pressure has doubled
ⓒ. becomes zero because the mixture has been diluted by an inert gas
ⓓ. increases in direct proportion to the inert-gas pressure
117. For a gaseous reaction obeying \(r=k(P_A)^2\) at fixed temperature, a graph of rate against \(P_A\) should be:
ⓐ. a horizontal line because rate is independent of \(P_A\)
ⓑ. a descending straight line because rate falls linearly with \(P_A\)
ⓒ. a rising straight line through the origin because \(r\propto P_A\)
ⓓ. an upward curve through the origin, since \(r\propto P_A^2\)
118. A gaseous reaction obeys \(r=kP_A(P_B)^2\). Its initial rate is \(1.00\times10^{-3}\,mol\,L^{-1}\,s^{-1}\). At constant temperature, the mixture is compressed from volume \(V\) to \(\frac{2V}{3}\), without changing its composition. The new initial rate is:
ⓐ. \(2.25\times10^{-3}\,mol\,L^{-1}\,s^{-1}\)
ⓑ. \(3.375\times10^{-3}\,mol\,L^{-1}\,s^{-1}\)
ⓒ. \(4.50\times10^{-3}\,mol\,L^{-1}\,s^{-1}\)
ⓓ. \(6.75\times10^{-3}\,mol\,L^{-1}\,s^{-1}\)
119. When the temperature of a reacting system is raised while concentrations and other conditions are kept unchanged, the reaction rate generally:
ⓐ. decreases because particles move farther apart
ⓑ. remains unchanged because the balanced equation is unchanged
ⓒ. increases because the rate constant usually increases
ⓓ. becomes independent of the nature of the reactants
120. Assertion: A reaction can proceed faster at a higher temperature even when the reactant concentrations are initially the same. Reason: The rate constant of the reaction commonly increases with temperature.
ⓐ. Both Assertion and Reason are true, and Reason explains Assertion
ⓑ. Both Assertion and Reason are true, but Reason does not explain Assertion
ⓒ. Assertion is true, but Reason is false
ⓓ. Assertion is false, but Reason is true
Subscribe
Notify of
guest
0 Comments
Scroll to Top