11.64 HBr is oxidized in the following reaction:
4 HBr(g) + O2(g) —• 2 H2O(g) + 2 Br,(g)
A proposed mechanism is
HBr + O2 -* HOOBr
(slow)
HOOBr + HBr — 2 HOBr
(fast)
HOBr + HBr — H2O + Bn
(fast)
- Show that this mechanism can account for the correct stoichiometry.
(a)
To determine:
Show that the given mechanism has correct stoichiometry.
Explanation of Solution
The molar ratio of the reactant molecules, products in a balanced chemical equation is called stoichiometry. Some reactions have so many steps to result in the final products. There can be intermediates which are not involved in the balanced equation. If a reaction has many steps to give their final products, by adding them together we can find the stoichiometric equation.
Here, we have shown only one
Then we can cancel out same molecule type present in the both side.
This reaction shows above mechanism can account for the correct stoichiometry.
But given reaction is
Therefore, mechanism matches the given stoichiometry.
(b)
To identify:
All the intermediates present in the mechanism.
Explanation of Solution
Some reactions should follow many steps to give their final product. In between these steps they will form intermediates. Intermediates don’t involve in the overall reaction. And final we can’t separate them out. Here,
(c)
To determine:
The molecularity of every elementary step.
Explanation of Solution
Molecularity of each step:
Molecularity is a theoretical concept and should not be negative, zero, fractional, infinite and imaginary. Molecularity is the total number of reactant molecules or atoms taking part in the chemical reaction.
Step 1 − molecularity is 2
Step 2 − molecularity is 2
Step 3 − molecularity is 2
(d)
To determine:
The rate expression for every elementary step.
Explanation of Solution
Rate equation:
Rate equation can be written using either product or reactants. If reactants are considered, we should take the reduction rate of reactants. If products are considered, we should take the growth rate of products.
(e)
To identify:
The rate determining step.
Explanation of Solution
Rate determining step:
Rate determining step is the slowest step in a chemical reaction. This step determines the rate of the whole reaction. So here rate determining step is step 1.
A reaction mechanism can contain more than one step and among them slowest step is considered as rate determining step. Rate expressions can be written to all the steps involved. It can be recognized whether a reaction mechanism matches with the correct stoichiometry to determine if the mechanism is correct.
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Chapter 11 Solutions
Bundle: Chemistry for Engineering Students, Loose-Leaf Version, 4th + OWLv2 with MindTap Reader with Student Solutions Manual, 1 term (6 months) Printed Access Card
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