(2-3a) Use the highlighter tool to shade the areas of high electron density for lonic and Molecular Covalent bonding on the diagrams bel Metallic and network covalent have been completed for you as an example. x Clear 9 Undo - Redo Metallic lonic Molecular Covalent Network Covalent

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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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### Electron Density in Different Types of Bonding

#### Task: 
Use the highlighter tool to shade the areas of high electron density for Ionic and Molecular Covalent bonding on the diagrams below. Examples for Metallic and Network Covalent have been completed for you.

#### Diagrams:
Four diagrams are presented, each representing a different type of chemical bond:

1. **Metallic Bonding**
   - Contains multiple orange circles representing metal atoms.
   - The area around the metal atoms is shaded gray, indicating high electron density shared among the metal atoms.

2. **Ionic Bonding**
   - Composed of alternating orange and blue circles. 
   - Orange circles represent metal atoms.
   - Blue circles represent nonmetal atoms.
   - Currently, no areas of electron density are shaded.

3. **Molecular Covalent Bonding**
   - Featuring blue circles only.
   - The blue circles represent nonmetal atoms.
   - Currently, no areas of electron density are shaded.

4. **Network Covalent Bonding**
   - Composed solely of blue circles, with connecting lines forming a lattice structure.
   - The blue circles represent nonmetal atoms.
   - The connecting lines indicate high electron density distributed throughout the lattice.

#### Key:
- **Orange Circle**: Metal Atom
- **Blue Circle**: Nonmetal Atom

#### Instructions:
- Highlight the regions of high electron density for the diagrams under "Ionic" and "Molecular Covalent" bonding categories.

### Detailed Explanation of Graphs and Diagrams:

1. **Metallic Bonding**:
   - This diagram illustrates how electron density is shared widely among metal atoms in a metallic bond.
   - The gray shading indicates the "sea of electrons" concept where electrons are freely moving and shared.

2. **Ionic Bonding**:
   - The diagram shows a lattice of positive (metal) and negative (nonmetal) ions.
   - When shading, highlight the regions between the opposite charged ions to show ionic bonds.

3. **Molecular Covalent Bonding**:
   - The diagram displays nonmetal atoms connected solely through covalent bonds.
   - In molecular covalent structures, you can shade the overlapping regions between atoms to represent shared electron pairs.

4. **Network Covalent Bonding**:
   - This lattice structure consists of nonmetal atoms covalently bonded in a repeating network.
   - The connecting lines illustrate regions of high electron density as electrons are shared throughout the entire
Transcribed Image Text:### Electron Density in Different Types of Bonding #### Task: Use the highlighter tool to shade the areas of high electron density for Ionic and Molecular Covalent bonding on the diagrams below. Examples for Metallic and Network Covalent have been completed for you. #### Diagrams: Four diagrams are presented, each representing a different type of chemical bond: 1. **Metallic Bonding** - Contains multiple orange circles representing metal atoms. - The area around the metal atoms is shaded gray, indicating high electron density shared among the metal atoms. 2. **Ionic Bonding** - Composed of alternating orange and blue circles. - Orange circles represent metal atoms. - Blue circles represent nonmetal atoms. - Currently, no areas of electron density are shaded. 3. **Molecular Covalent Bonding** - Featuring blue circles only. - The blue circles represent nonmetal atoms. - Currently, no areas of electron density are shaded. 4. **Network Covalent Bonding** - Composed solely of blue circles, with connecting lines forming a lattice structure. - The blue circles represent nonmetal atoms. - The connecting lines indicate high electron density distributed throughout the lattice. #### Key: - **Orange Circle**: Metal Atom - **Blue Circle**: Nonmetal Atom #### Instructions: - Highlight the regions of high electron density for the diagrams under "Ionic" and "Molecular Covalent" bonding categories. ### Detailed Explanation of Graphs and Diagrams: 1. **Metallic Bonding**: - This diagram illustrates how electron density is shared widely among metal atoms in a metallic bond. - The gray shading indicates the "sea of electrons" concept where electrons are freely moving and shared. 2. **Ionic Bonding**: - The diagram shows a lattice of positive (metal) and negative (nonmetal) ions. - When shading, highlight the regions between the opposite charged ions to show ionic bonds. 3. **Molecular Covalent Bonding**: - The diagram displays nonmetal atoms connected solely through covalent bonds. - In molecular covalent structures, you can shade the overlapping regions between atoms to represent shared electron pairs. 4. **Network Covalent Bonding**: - This lattice structure consists of nonmetal atoms covalently bonded in a repeating network. - The connecting lines illustrate regions of high electron density as electrons are shared throughout the entire
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