An object is located 28.0 cm from a certain lens. The lens forms a real image that is twice as high as the object. • Part A What is the focal length of this lens? View Available Hint(s) O 84.0 cm O 9.33 cm O 10.7 cm O 5.36 cm 18.7 cm Previous Answers v Correct • Part B sa diverging lens whose focal points are at the same distance from the lens as the focal points of the first lens. If the object is 5.00 cm high, what is the height of the image formed by the new lens? The object is still located 28.0 cm from the lens. • View Available Hint(s) O 125 cm O 2.0 cm O 10.0 cm O 11.2 cm O 7,5 cm O 3.3 cm

An object is located 28.0 cm from a certain lens. The lens forms a real image that is twice as high as the object. • Part A What is the focal length of this lens? View Available Hint(s) O 84.0 cm O 9.33 cm O 10.7 cm O 5.36 cm 18.7 cm Previous Answers v Correct • Part B sa diverging lens whose focal points are at the same distance from the lens as the focal points of the first lens. If the object is 5.00 cm high, what is the height of the image formed by the new lens? The object is still located 28.0 cm from the lens. • View Available Hint(s) O 125 cm O 2.0 cm O 10.0 cm O 11.2 cm O 7,5 cm O 3.3 cm

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Question

### Image Transcription for Educational Use

An object is located 28.0 cm from a certain lens. The lens forms a real image that is twice as high as the object.

#### Part A

**Question:** What is the focal length of this lens?

Options:
1. 84.0 cm
2. 9.33 cm
3. 10.7 cm
4. 5.36 cm
5. 18.7 cm

The correct answer selected is **5.36 cm**.

#### Part B

**Question:** Now replace the lens used in Part A with another lens. The new lens is a diverging lens whose focal points are at the same distance from the lens as the focal points of the first lens. If the object is 5.00 cm high, what is the height of the image formed by the new lens? The object is still located 28.0 cm from the lens.

Options:
1. 12.5 cm
2. 2.0 cm
3. 10.0 cm
4. 11.2 cm
5. 7.5 cm
6. 3.3 cm

**Explanation:** The image shows a multiple-choice question setup, where users are prompted to calculate properties of a lens system. The aim is to understand the relationship between object distance, image height, and the type of lens used through practical calculations.

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