### H10.5 - Level 1**Status:** Unanswered • 3 attempts left---**Instruction:** For each pair of molecules, click on the one which will undergo an E2 reaction more rapidly when treated with NaOEt.---**Pairs of Molecules:**1. **Pair 1:** - Left: ![Molecule 1](Images/1_1.png) \[ \text{Structure: Cyclic structure with a Cl attached to one carbon.} \] - Right: ![Molecule 2](Images/1_2.png) \[ \text{Structure: Cyclic structure with a symmetrical distribution and Cl attached to a different carbon.} \]2. **Pair 2:** - Left: ![Molecule 1](Images/2_1.png) \[ \text{Structure: Chain structure with Br attached to a secondary carbon.} \] - Right: ![Molecule 2](Images/2_2.png) \[ \text{Structure: Chain structure with Br attached to a different secondary carbon.} \]3. **Pair 3:** - Left: ![Molecule 1](Images/3_1.png) \[ \text{Structure: Chain structure with Br attached to a primary carbon.} \] - Right: ![Molecule 2](Images/3_2.png) \[ \text{Structure: Chain structure with Br attached to a secondary carbon.} \]4. **Pair 4:** - Left: ![Molecule 1](Images/4_1.png) \[ \text{Structure: Chain structure with Cl attached to a secondary carbon.} \] - Right: ![Molecule 2](Images/4_2.png) \[ \text{Structure: Chain structure with Cl attached to a primary carbon.} \]---**Explanation of Graphs/Diagrams:**Each pair of molecules is shown with molecular structures represented as skeletal formulas. The task involves selecting the molecule that would more swiftly undergo an E2 (bimolecular elimination) reaction when reacted with sodium ethoxide (NaOEt). Each molecule is labeled according to its pair and position (left, right). Considerations for the E2 reaction speed include:- **Base Strength:** NaO

The question is based on the concept of organic reactions. we have to identify the reactant which…

Unanswered • 3 attempts left For each pair of molecules click on the one which will undergo an E2 reaction more rapidly when treated with NaOEt. Pair 1: .CI .CI Pair 2 Br Br Pair 3: Br Br Pair 4: CI

Unanswered • 3 attempts left For each pair of molecules click on the one which will undergo an E2 reaction more rapidly when treated with NaOEt. Pair 1: .CI .CI Pair 2 Br Br Pair 3: Br Br Pair 4: CI

Organic Chemistry: A Guided Inquiry

2nd Edition

ISBN:9780618974122

Author:Andrei Straumanis

Publisher:Andrei Straumanis

Chapter13: Substitution

Section: Chapter Questions

Problem 59CTQ

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Question

### H10.5 - Level 1
**Status:** Unanswered • 3 attempts left

---

**Instruction:** For each pair of molecules, click on the one which will undergo an E2 reaction more rapidly when treated with NaOEt.

---

**Pairs of Molecules:**

1. **Pair 1:**
- Left: ![Molecule 1](Images/1_1.png)
\[ \text{Structure: Cyclic structure with a Cl attached to one carbon.} \]
- Right: ![Molecule 2](Images/1_2.png)
\[ \text{Structure: Cyclic structure with a symmetrical distribution and Cl attached to a different carbon.} \]

2. **Pair 2:**
- Left: ![Molecule 1](Images/2_1.png)
\[ \text{Structure: Chain structure with Br attached to a secondary carbon.} \]
- Right: ![Molecule 2](Images/2_2.png)
\[ \text{Structure: Chain structure with Br attached to a different secondary carbon.} \]

3. **Pair 3:**
- Left: ![Molecule 1](Images/3_1.png)
\[ \text{Structure: Chain structure with Br attached to a primary carbon.} \]
- Right: ![Molecule 2](Images/3_2.png)
\[ \text{Structure: Chain structure with Br attached to a secondary carbon.} \]

4. **Pair 4:**
- Left: ![Molecule 1](Images/4_1.png)
\[ \text{Structure: Chain structure with Cl attached to a secondary carbon.} \]
- Right: ![Molecule 2](Images/4_2.png)
\[ \text{Structure: Chain structure with Cl attached to a primary carbon.} \]

---

**Explanation of Graphs/Diagrams:**
Each pair of molecules is shown with molecular structures represented as skeletal formulas. The task involves selecting the molecule that would more swiftly undergo an E2 (bimolecular elimination) reaction when reacted with sodium ethoxide (NaOEt). Each molecule is labeled according to its pair and position (left, right).

Considerations for the E2 reaction speed include:

- **Base Strength:** NaO

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