### Polymerization of Fluoroethene **Overview:** Polymers can consist of thousands of monomers. In this exercise, we will focus on creating a simple polymer from fluoroethene. **Instructions:** 1. **Objective**: Draw two repeat units of fluoroethene. You are to assume that there are hydrogen atoms attached to the ends of the dimer molecule. 2. **Considerations**: - Ignore stereochemistry in your drawing. - Disregard any inorganic byproducts that may form. **Diagram Details:** - The image contains a structural formula for fluoroethene, represented as follows: - A zigzag line represents the carbon backbone. - There's a fluorine atom (F) attached at one end. - **Chemical Reaction Description**: - **Reaction Conditions**: The diagram indicates that either heat (∆) or light (λν) can initiate the reaction. - **Catalyst**: AIBN (Azobisisobutyronitrile) acts as a radical initiator to start the polymerization process. - **Expected Outcome**: - Below the initial structure, there is space to draw the resulting two repeat units of the polymer, ignoring the geometrical arrangement and inorganic byproducts. This task helps understand polymerization processes and visualize the transformation from monomer to polymer, highlighting the importance of catalysts and reaction conditions.

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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### Polymerization of Fluoroethene

**Overview:**  
Polymers can consist of thousands of monomers. In this exercise, we will focus on creating a simple polymer from fluoroethene.

**Instructions:**  
1. **Objective**: Draw two repeat units of fluoroethene. You are to assume that there are hydrogen atoms attached to the ends of the dimer molecule.
2. **Considerations**:
   - Ignore stereochemistry in your drawing.
   - Disregard any inorganic byproducts that may form.

**Diagram Details:**

- The image contains a structural formula for fluoroethene, represented as follows:
  - A zigzag line represents the carbon backbone.
  - There's a fluorine atom (F) attached at one end.
  
- **Chemical Reaction Description**:
  - **Reaction Conditions**: The diagram indicates that either heat (∆) or light (λν) can initiate the reaction.
  - **Catalyst**: AIBN (Azobisisobutyronitrile) acts as a radical initiator to start the polymerization process.
  
- **Expected Outcome**:
  - Below the initial structure, there is space to draw the resulting two repeat units of the polymer, ignoring the geometrical arrangement and inorganic byproducts.

This task helps understand polymerization processes and visualize the transformation from monomer to polymer, highlighting the importance of catalysts and reaction conditions.
Transcribed Image Text:### Polymerization of Fluoroethene **Overview:** Polymers can consist of thousands of monomers. In this exercise, we will focus on creating a simple polymer from fluoroethene. **Instructions:** 1. **Objective**: Draw two repeat units of fluoroethene. You are to assume that there are hydrogen atoms attached to the ends of the dimer molecule. 2. **Considerations**: - Ignore stereochemistry in your drawing. - Disregard any inorganic byproducts that may form. **Diagram Details:** - The image contains a structural formula for fluoroethene, represented as follows: - A zigzag line represents the carbon backbone. - There's a fluorine atom (F) attached at one end. - **Chemical Reaction Description**: - **Reaction Conditions**: The diagram indicates that either heat (∆) or light (λν) can initiate the reaction. - **Catalyst**: AIBN (Azobisisobutyronitrile) acts as a radical initiator to start the polymerization process. - **Expected Outcome**: - Below the initial structure, there is space to draw the resulting two repeat units of the polymer, ignoring the geometrical arrangement and inorganic byproducts. This task helps understand polymerization processes and visualize the transformation from monomer to polymer, highlighting the importance of catalysts and reaction conditions.
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