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The oxidation of thallium(I) ion by cerium(IV) ion in aqueous solution has the equation
2 Ce4+(aq) + Tl+(aq) → 2 Ce3+(aq) + Tl3+(aq)
The accepted mechanism for this reaction is
- (a) Verify that this mechanism predicts the overall reaction.
- (b) Identify all intermediates in this mechanism.
- (c) Identify the catalyst in this mechanism.
- (d) Suppose that the first step in this mechanism is rate-limiting. Determine the rate law.
- (e) Suppose that the second step in this mechanism is rate-limiting. Determine the rate law.
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Chapter 11 Solutions
Chemistry: The Molecular Science
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- Urea, (NH2)2CO, can be prepared by heating ammonium cyanate, NH4OCN. NH4OCN(NH2)2CO This reaction may occur by the following mechanism: NH4++OCNkk1NH3+HOCN(fast,equilibrium)NH3+HOCNk1(NH2)2CO(slow) What is the rate law predicted by this mechanism?arrow_forwardAn excellent way to make highly pure nickel metal for use in specialized steel alloys is to decompose Ni(CO)4 by heating it in a vacuum to slightly above room temperature. Ni(CO)4(g) Ni(s) + 4 CO(g) The reaction is proposed to occur in four steps, the first of which is Ni(CO)4(g) Ni(CO)3(g) + CO(g) Kinetic studies of this first-order decomposition reaction have been carried out between 47.3 C and 66.0 C to give the results in the table. (a) Determine the activation energy for this reaction. (b) Ni(CO)4 is formed by the reaction of nickel metal with carbon monoxide. Suppose that 2.05 g CO is combined with 0.125 g nickel metal. Determine the maximum mass (g) of Ni(CO)4 that can be formed. Replacement of CO by another molecule in Ni(CO)4 was studied in the nonaqueous solvents toluene and hexane to understand the general principles that govern the chemistry of such compounds. Ni(CO)4(g) + P(CH3)3 Ni(CO)3P(CH3)3 + CO A detailed study of the kinetics of the reaction led to the mechanism Step1:(slow)Ni(CO)4Ni(CO)3+COStep2:(fast)Ni(CO)3+P(CH3)3Ni(CO)3P(CH3)3 (c) Which step in the mechanism is unimolecular? Which is bimolecular? (d) Add the steps of the mechanism to show that the result is the balanced equation for the observed reaction. (e) Is there an intermediate in this reaction? If so, what is it? (f) It was found that doubling the concentration of Ni(CO)4 increased the reaction rate by a factor of 2. Doubling the concentration of P(CH3)3 had no effect on the reaction rate. Based on this information, write the rate equation for the reaction. (g) Does the experimental rate equation support the proposed mechanism? Why or why not?arrow_forwardMost reactions occur by a series of steps. The energy profile for a certain reaction that proceeds by a two-step mechanism is On the energy profile, indicate a. the positions of reactants and products. b. the activation energy for the overall reaction. c. E for the reaction. d. Which point on the plot represents the energy of the intermediate in the two-step reaction? e. Which step in the mechanism for this reaction is rate determining, the first or the second step? Explain.arrow_forward
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