How Does a Magnifying Glass Flip Images Upside-Down?

Why does a magnifying glass flip the image of an object upside-down?

Choose the correct option:

A. The magnifying glass scatters light in all directions.

B. The magnifying glass uses a convex lens.

C. The magnifying glass uses a concave lens.

D. The magnifying glass reflects light in the opposite direction.

Answer:

A magnifying glass flips the image of an object upside-down when held too far away from it.

When a magnifying glass is held too far away from an object, it causes the light rays from the object to diverge, or spread apart, before they reach the lens of the magnifying glass. This divergence causes the lens to refract the light rays in such a way that they converge on the opposite side of the lens. As a result, an image is formed on the same side of the lens, but it is flipped upside-down.

It's like looking at the object through a reversed lens, which causes the image to appear inverted. This optical phenomenon is a result of the way light behaves when passing through lenses and interacting with our eyes.

Understanding how a magnifying glass flips images upside-down can provide insights into the fascinating world of optics and how we perceive the world around us.

← Power understanding average power output How to calculate time and velocity of a speedboat approaching a buoy →