7. (Advanced) Complete the ray diagrams (below) for virtual images formed by diverging mirrors and lenses. F C F

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Title: Advanced Ray Diagrams for Virtual Lenses

Content:

**Ray Diagram Explanation for Diverging Lenses**

This educational module focuses on completing ray diagrams for virtual images formed by diverging mirrors and lenses.

**Diagram Details:**

1. **Lens Representation:**
   - The diagram features a diverging lens (concave lens) depicted in a light blue shade. This type of lens is thinner at the center than at the edges.

2. **Principal Axis:**
   - A horizontal line runs through the center of the lens, depicting the principal axis.

3. **Focal Points:**
   - Two focal points are marked with the letter "F" on either side of the lens. The focal points are equidistant from the lens's central point on the principal axis.

4. **Object Representation:**
   - An upright arrow, denoting the object, is placed on the left side of the lens.

5. **Instructions:**
   - The task is to complete the ray diagrams to show how virtual images are formed by this diverging lens.

**Guidelines for Drawing Ray Diagrams:**

- **Ray 1**: Draw a ray parallel to the principal axis from the top of the object. After passing through the lens, it appears to diverge from the focal point on the front side.
  
- **Ray 2**: Draw a ray passing through the center of the lens, which continues in a straight line without deviation.

- **Ray 3**: Draw a ray towards the focal point on the opposite side of the lens. After passing through the lens, it becomes parallel to the principal axis.

The intersection of these rays, when extended backwards, will depict the location of the virtual image. This image will be upright, smaller, and virtual, appearing on the same side as the object.

**Purpose:**
Understanding these diagrams is crucial for comprehending how diverging lenses work in applications like eyeglasses, cameras, and scientific instruments.
Transcribed Image Text:Title: Advanced Ray Diagrams for Virtual Lenses Content: **Ray Diagram Explanation for Diverging Lenses** This educational module focuses on completing ray diagrams for virtual images formed by diverging mirrors and lenses. **Diagram Details:** 1. **Lens Representation:** - The diagram features a diverging lens (concave lens) depicted in a light blue shade. This type of lens is thinner at the center than at the edges. 2. **Principal Axis:** - A horizontal line runs through the center of the lens, depicting the principal axis. 3. **Focal Points:** - Two focal points are marked with the letter "F" on either side of the lens. The focal points are equidistant from the lens's central point on the principal axis. 4. **Object Representation:** - An upright arrow, denoting the object, is placed on the left side of the lens. 5. **Instructions:** - The task is to complete the ray diagrams to show how virtual images are formed by this diverging lens. **Guidelines for Drawing Ray Diagrams:** - **Ray 1**: Draw a ray parallel to the principal axis from the top of the object. After passing through the lens, it appears to diverge from the focal point on the front side. - **Ray 2**: Draw a ray passing through the center of the lens, which continues in a straight line without deviation. - **Ray 3**: Draw a ray towards the focal point on the opposite side of the lens. After passing through the lens, it becomes parallel to the principal axis. The intersection of these rays, when extended backwards, will depict the location of the virtual image. This image will be upright, smaller, and virtual, appearing on the same side as the object. **Purpose:** Understanding these diagrams is crucial for comprehending how diverging lenses work in applications like eyeglasses, cameras, and scientific instruments.
Expert Solution
Step 1

To draw the ray diagram, use the law of reflection and refraction. Initiate at least two rays from the object to locate the image of the object.

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