The lens and mirror in the figure below are separated by 1.00 m and have focal lengths of  +79.7 cm and −49.3 cm, respectively. If an object is placed 1.00 m to the left of the lens, where will the final image be located? q3 = ?cm   Determine the overall magnification ???

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Chapter1: Units, Trigonometry. And Vectors
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The lens and mirror in the figure below are separated by 1.00 m and have focal lengths of 
+79.7 cm and −49.3 cm, respectively.

If an object is placed 1.00 m to the left of the lens, where will the final image be located?

q3 = ?cm
 
Determine the overall magnification
???
## Lens and Mirror System

### Description:
In this diagram, an object, a lens, and a mirror are displayed. The object is located to the left of the lens, which is followed by a mirror to its right. The lens and mirror are separated by a distance of 1.00 m, with the object being 1.00 m from the lens.

### Diagram Details:
- **Object**: Situated to the left, indicated by an arrow above a horizontal line.
- **Lens**: Represented as a vertical oval shape; denotes a converging lens.
- **Mirror**: Shown as a curved line to the right of the lens; indicates a concave mirror.

### Measurements:
- Distance from object to lens: 1.00 m
- Distance from lens to mirror: 1.00 m

### Task:
Determine where the final image will form if the object is placed 1.00 m to the left of the lens. Calculate the position of the final image and indicate if it is inverted or upright. You can input the result in the provided field with a choice of position relative to the lens.

### Options:
- The image is either "upright" or "inverted."

### Calculation Area:
- There is a field to compute the overall magnification of the system.

This exercise aids in understanding the behavior of light in systems involving lenses and mirrors, covering topics such as image formation, magnification, and the effects of optical instruments.
Transcribed Image Text:## Lens and Mirror System ### Description: In this diagram, an object, a lens, and a mirror are displayed. The object is located to the left of the lens, which is followed by a mirror to its right. The lens and mirror are separated by a distance of 1.00 m, with the object being 1.00 m from the lens. ### Diagram Details: - **Object**: Situated to the left, indicated by an arrow above a horizontal line. - **Lens**: Represented as a vertical oval shape; denotes a converging lens. - **Mirror**: Shown as a curved line to the right of the lens; indicates a concave mirror. ### Measurements: - Distance from object to lens: 1.00 m - Distance from lens to mirror: 1.00 m ### Task: Determine where the final image will form if the object is placed 1.00 m to the left of the lens. Calculate the position of the final image and indicate if it is inverted or upright. You can input the result in the provided field with a choice of position relative to the lens. ### Options: - The image is either "upright" or "inverted." ### Calculation Area: - There is a field to compute the overall magnification of the system. This exercise aids in understanding the behavior of light in systems involving lenses and mirrors, covering topics such as image formation, magnification, and the effects of optical instruments.
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