Specify whether you expect a molecular dipole moment for each of the following compounds. ball & stick H3C + labels CH3 Dipole: V ball & stick + labels H₂C=CCl₂ Dipole V

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### Molecular Dipole Moments

**Objective:** 
Determine whether the following compounds have a molecular dipole moment.

#### Molecular Structures:

1. **Compound 1:**
   - **Visualization:** Ball-and-stick model showing one red atom (oxygen), three gray atoms (carbon), and six white atoms (hydrogen).
   - **Description:** The central gray atom (carbon) is double-bonded to the red atom (oxygen) and single-bonded to two other gray atoms (carbons). Each of the two outer gray atoms is bonded to three white atoms (hydrogen).

2. **Compound 2:**
   - **Visualization:** Ball-and-stick model showing two green atoms (chlorine), two gray atoms (carbon), and two white atoms (hydrogen).
   - **Description:** The molecule consists of a double bond between the two gray atoms (carbons). One gray atom is bonded to two green atoms (chlorines) and the other gray atom is bonded to two white atoms (hydrogen).

#### Structural Formulas:
1. **Structural Formula 1:**
   - \( \text{H}_3\text{C} - \text{C(O)} - \text{CH}_3 \)
   - **Dipole:**
     - Dropdown menu (to choose Yes or No)

2. **Structural Formula 2:**
   - \( \text{H}_2\text{C} == \text{CCl}_2 \)
   - **Dipole:**
     - Dropdown menu (to choose Yes or No)

### Instructions:
- Review the ball-and-stick models of the given compounds.
- Based on the visualizations, predictions should be made regarding the presence of a molecular dipole moment.
- Use the dropdown menus to specify if a dipole moment is expected for each of the structural formulas provided.

This educational activity helps in understanding the concept of molecular polarity and dipole moments, which are fundamental in determining molecular interactions and properties.
Transcribed Image Text:### Molecular Dipole Moments **Objective:** Determine whether the following compounds have a molecular dipole moment. #### Molecular Structures: 1. **Compound 1:** - **Visualization:** Ball-and-stick model showing one red atom (oxygen), three gray atoms (carbon), and six white atoms (hydrogen). - **Description:** The central gray atom (carbon) is double-bonded to the red atom (oxygen) and single-bonded to two other gray atoms (carbons). Each of the two outer gray atoms is bonded to three white atoms (hydrogen). 2. **Compound 2:** - **Visualization:** Ball-and-stick model showing two green atoms (chlorine), two gray atoms (carbon), and two white atoms (hydrogen). - **Description:** The molecule consists of a double bond between the two gray atoms (carbons). One gray atom is bonded to two green atoms (chlorines) and the other gray atom is bonded to two white atoms (hydrogen). #### Structural Formulas: 1. **Structural Formula 1:** - \( \text{H}_3\text{C} - \text{C(O)} - \text{CH}_3 \) - **Dipole:** - Dropdown menu (to choose Yes or No) 2. **Structural Formula 2:** - \( \text{H}_2\text{C} == \text{CCl}_2 \) - **Dipole:** - Dropdown menu (to choose Yes or No) ### Instructions: - Review the ball-and-stick models of the given compounds. - Based on the visualizations, predictions should be made regarding the presence of a molecular dipole moment. - Use the dropdown menus to specify if a dipole moment is expected for each of the structural formulas provided. This educational activity helps in understanding the concept of molecular polarity and dipole moments, which are fundamental in determining molecular interactions and properties.
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