### Reaction Analysis with Substrate Variability**Context:**A chemist intends to run the following reaction on three different substrates:**Reaction Overview:**- Reactant: R–Cl- Solvent: H₂O- Condition: room temperature- Product: unspecified**Substrates:**1. (1) Chlorocyclopentane2. (2) Chlorocyclobutene3. (3) Chlorobenzene**Problem Statement:**The chemist observes that:- One substrate will react quickly.- Another will react slowly.- One will not react at all.**Question:**Identify which substrate corresponds to each reaction rate and explain why.**Hint:** Consider the type of reaction mechanism involved. Evaluate how the chemical structure affects reactivity and stability, potentially favoring certain reaction pathways over others.

Answered: A chemist intends to run the following…

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

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### Reaction Analysis with Substrate Variability

**Context:**
A chemist intends to run the following reaction on three different substrates:

**Reaction Overview:**
- Reactant: R–Cl
- Solvent: H₂O
- Condition: room temperature
- Product: unspecified

**Substrates:**
1. (1) Chlorocyclopentane
2. (2) Chlorocyclobutene
3. (3) Chlorobenzene

**Problem Statement:**
The chemist observes that:
- One substrate will react quickly.
- Another will react slowly.
- One will not react at all.

**Question:**
Identify which substrate corresponds to each reaction rate and explain why.

**Hint:** Consider the type of reaction mechanism involved. Evaluate how the chemical structure affects reactivity and stability, potentially favoring certain reaction pathways over others.

Expert Solution

Step 1: SN1 reactions

The S_N1 reaction is a substitution reaction that takes place in two steps. In this reaction, a nucleophile replaces a leaving group in two steps.

In the first step, the leaving group leaves and forms a carbocation. This is the slowest step in this mechanism and hence the rate-determining step.
In the second step, the nucleophile attacks the carbocation and forms the substituted product.

Whether a reaction proceeds by the S_N1 mechanism is determined by the stability of the carbocation intermediate formed. If the carbocation intermediate formed can be stabilized, then the reaction will follow the S_N1 pathway. If it is not stabilized, the reaction will not proceed by the S_N1 pathway (In this case, the reaction may proceed through the S_N2 pathway, if the substrate is suitable for an S_N2 reaction).

An S_N2 reaction is also a substitution reaction similar to an S_N1 reaction. But the difference is in the S_N2 reaction, the attack of nucleophiles (nucleophile attack from the backside) and the leaving of the leaving group take place in a single step. So, sterically less hindered C centers will undergo S_N2 reaction.

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