Learn how different lenses form images by refracting light


Learn how different lenses form images by refracting light
Learn how different lenses form images by refracting light
Explanation of the refraction of light through different lenses.
Encyclopædia Britannica, Inc.

Transcript

We see objects when light waves bounce off their surfaces and travel toward our eyes. This behavior of light is called reflection.
Opaque objects, other than mirrors, will also absorb light rays. They reflect only the colors of light that they appear to be and absorb the other wavelengths of colored light.
When light waves pass through transparent, or see-through, objects, another behavior of light called refraction occurs. As a light wave enters a new transparent substance – at an angle other than 90 degrees – it bends, or refracts. Refraction often causes objects to look different when we view them through different transparent substances.
Optics is the study of light. It includes the study of how visible light and the eye interact to produce sight. Mirrors and lenses are important optical tools because they reflect and refract light.
Eyeglasses, magnifying glasses, telescopes, and binoculars all have lenses or mirrors that control how light enters the eye. These optical instruments can greatly extend human vision.
All mirrors are opaque and completely reflect light. They can be flat, concave, or convex in shape.
All lenses, including the lenses in our eyes, are transparent and refract light. Many of us depend on corrective lenses to function independently. Lenses can be concave or convex. A lens’s shape determines the images it forms.
When parallel rays of light enter a concave lens, the light waves refract outward, or spread out. The light rays refract twice: first when entering the lens and second when leaving the lens. Only the light rays passing through the center of the lens remain straight.
Parallel light rays that pass through a concave lens do not meet. Viewing an object through a concave lens will make the object look smaller and closer. Concave lenses are used to correct nearsightedness.
A virtual image can appear when you look at an object through a concave lens. A virtual image is formed where light appears to have converged, but where no light can actually go. The virtual image formed by a concave lens appears upright, is smaller than the actual object, and appears between the concave lens and the actual object being viewed through the lens.
Convex lenses refract light inward toward a focal point. Light rays passing through the edges of a convex lens are bent most, whereas light passing through the lens’s center remain straight. Convex lenses are used to correct farsighted vision.
Convex lenses are the only lenses that can form real images. Unlike a virtual image, a real image appears where light actually converges.
The real image formed by a convex lens appears inverted. It can be either smaller than the object or the same size as the object, depending on where the actual object is in relation to the convex lens.
For example, if you were to look through a magnifying glass at a distant object, you would see a small, upside-down real image appear to float in between you and the lens.