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Physics and Lenses Help

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By McGraw-Hill Professional
Updated on Sep 12, 2011

Introduction

The ways in which visible light is reflected and refracted can be used to advantage. This was first discovered when experimenters found that specially shaped pieces of glass can make objects look larger or smaller. The refractive properties of glass have been used for centuries to help correct deficiencies in vision that occur as a person gets older. Lenses work because they refract light more or less depending on where and at what angle the light strikes their surfaces. Curved mirrors have much the same effect when they reflect light.

The Convex Lens

You can buy a convex lens in almost any novelty store or department store. In a good hobby store you should be able to find a “magnifying glass” up to 10 cm or even 15 cm in diameter. The term convex arises from the fact that one or both faces of the glass bulge outward at the center. A convex lens is sometimes called a converging lens . It brings parallel light rays to a sharp focus or focal point , as shown in Fig. 19-6a , when those rays are parallel to the axis of the lens. It also can collimate (make parallel) the light from a point source, as shown in Fig. 19-6b .

Fig. 19-6 . (a) A convex lens focuses parallel light rays to a point. (b) The same lens collimates light from a point source at the focus.

The properties of a convex lens depend on the diameter and the difference in thickness between the edges and the center. The larger the diameter, the greater is the light-gathering power. The greater the difference in thickness between the center and the edges, the shorter is the distance between the lens and the point at which it brings parallel light rays to a focus. The effective area of the lens, measured in a plane perpendicular to the axis, is known as the light-gathering area . The distance between the center of the lens and the focal point (as shown in Fig. 19-6 a or b ) is called the focal length . If you look through a convex lens at a close-up object such as a coin, the features are magnified; they appear larger than they look with the unaided eye. The light rays from an object at a great distance from a convex lens converge to form a real image at the focal point.

The surfaces of most convex lenses are spherical. This means that if you could find a large ball having just the right diameter, the curve of the lens face would fit neatly inside the ball. Some convex lenses have the same radius of curvature on each face; others have different radii of curvature on their two faces. Some converging lenses have one flat face; these are called planoconvex lenses .

The Concave Lens

You will have some trouble finding a concave lens in a department store, but you should be able to order one from a specialty catalog or a Web site. The term concave refers to the fact that one or both faces of the glass bulge inward at the center. This type of lens is also called a diverging lens . It spreads parallel light rays outward (Fig. 19-7a). It can collimate converging rays if the convergence angle is just right (see Fig. 19-7b).

Fig. 19-7 . (a) A concave lens spreads parallel light rays. (b) The same lens collimates converging light rays.

As with convex lenses, the properties of a concave lens depend on the diameter and the extent to which the surface(s) depart from flat. The greater the difference in thickness between the edges and the center of the lens, the more the lens will cause parallel rays of light to diverge. If you look through a concave lens at a close-in object such as a coin, the features are reduced; they appear smaller than they look with the unaided eye.

The surfaces of concave lenses, like those of their convex counterparts, are generally spherical. Some concave lenses have the same radius of curvature on each face; others have different radii of curvature on their two faces. Some diverging lenses have one flat face; these are called planoconcave lenses .

Practice problems of these concepts can be found at: Optics Practice Test

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