Question

You are given a convex lens of focal length 10cm. Where would you place an object to get a real, inverted and highly enlarged image of the object. Draw a ray diagram

Answer 1

Answer:

If an object is placed at the focus of the lens it forms real, inverted and highly enlarged image. Thus, the distance of the object from the optical centre of the lens is equal to the focal length of the lens =10 cm.

Answer 2

Answer:

When an object is placed at the lens's focus, a real, inverted, and significantly enlarged image is created.

Explanation:

• The convex lens has a 10 cm focal length.

• When an object is placed at the lens's focus, a real, inverted, and significantly enlarged image is created. As a result, the object's distance from the lens' optical centre is equal to 10 cm, which is the lens' focal length.

• A lens that is thick in the center and thin at the edges is said to be convex. After refraction, incoming rays that are parallel to the principal axis converge at a certain place. The principal focus of a convex lens is the location where the parallel set of incident rays meet at a point after refraction.

• So, keeping the object at focus will lead to a real, inverted, and highly enlarged image.

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