Question in Attachment ### Diagram 5 ExplanationThis diagram illustrates the optical setup involving a convex lens and a plane mirror. Here’s a detailed explanation of the components and layout:- **Stick Figure:** Represents an object placed on the left side of the setup.- **Convex Lens:** Positioned between the object and the plane mirror, the convex lens is shown with its typical biconvex shape. It functions to converge light rays that pass through it.- **Plane Mirror:** Located on the far right, the plane mirror is depicted as a vertical blue rectangle. Its purpose is to reflect light back towards the lens.- **Distances:** - \( d_1 \): The distance from the object to the convex lens. - \( d_2 \): The distance from the convex lens to the plane mirror.This diagram is useful for understanding how light interacts with lenses and mirrors, demonstrating principles such as reflection and refraction. **Physics Problem: Image Formation with Lens and Mirror****Scenario:**Refer to Diagram 5.An object is positioned at a distance \( d_1 = 60 \) cm from a convex lens with a focal length \( f = 19.1 \) cm. A plane mirror is located at a distance \( d_2 = 48 \) cm behind the lens. The lens forms a real image of the object in front of the mirror. The mirror generates two virtual images:- The image of the object itself- The image of the lens image reflected in the mirror**Problem:**Calculate the distance, in centimeters, between these two images created by the mirror. Note that this quantity should be positive.

Answered: Image /qna-images/answer/2e4da728-34b3-418f-92c4-a26ea5e957cc.jpg

Refer to diagram 5. An object stands at distance d = 60 cm from a convex lens of focal lengthf = 19.1 cm; a plane mirror is distance dɔ = 48 cm behind the lens. The lens creates a real image of Harry in front of the mirror. The mirror creates two virtual images: - an image of the object itself - an image of the lens image reflected in the mirror. Find the distance, in cm, between these two images created by the mirror. (This quantity should be positive!)

Refer to diagram 5. An object stands at distance d = 60 cm from a convex lens of focal lengthf = 19.1 cm; a plane mirror is distance dɔ = 48 cm behind the lens. The lens creates a real image of Harry in front of the mirror. The mirror creates two virtual images: - an image of the object itself - an image of the lens image reflected in the mirror. Find the distance, in cm, between these two images created by the mirror. (This quantity should be positive!)

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Question in Attachment

### Diagram 5 Explanation

This diagram illustrates the optical setup involving a convex lens and a plane mirror. Here’s a detailed explanation of the components and layout:

- **Stick Figure:** Represents an object placed on the left side of the setup.
- **Convex Lens:** Positioned between the object and the plane mirror, the convex lens is shown with its typical biconvex shape. It functions to converge light rays that pass through it.
- **Plane Mirror:** Located on the far right, the plane mirror is depicted as a vertical blue rectangle. Its purpose is to reflect light back towards the lens.
- **Distances:**
- \( d_1 \): The distance from the object to the convex lens.
- \( d_2 \): The distance from the convex lens to the plane mirror.

This diagram is useful for understanding how light interacts with lenses and mirrors, demonstrating principles such as reflection and refraction.

**Physics Problem: Image Formation with Lens and Mirror**

**Scenario:**

Refer to Diagram 5.

An object is positioned at a distance \( d_1 = 60 \) cm from a convex lens with a focal length \( f = 19.1 \) cm. A plane mirror is located at a distance \( d_2 = 48 \) cm behind the lens. The lens forms a real image of the object in front of the mirror. The mirror generates two virtual images:
- The image of the object itself
- The image of the lens image reflected in the mirror

**Problem:**

Calculate the distance, in centimeters, between these two images created by the mirror. Note that this quantity should be positive.

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