Copyright © 2010 McGraw-Hill Ryerson Ltd. What are lenses and what are some of their applications? Topic4.6 (Pages 344-55)

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Presentation transcript:

Copyright © 2010 McGraw-Hill Ryerson Ltd. What are lenses and what are some of their applications? Topic4.6 (Pages )

Copyright © 2010 McGraw-Hill Ryerson Ltd. Lenses can change the appearance of objects, making images appear larger or smaller than the object or making them upside down or even misshapen. What are lenses and what are some of their applications? What lenses do you use in your life? Lenses can focus light because of refraction. Light refracts when entering and leaving a lens.

Copyright © 2010 McGraw-Hill Ryerson Ltd. Lenses have at least one curved surface and refract light in a particular way. A lens is a thin, transparent piece of glass or plastic that has at least one curved side. The curved side or sides may be concave or convex. Lenses come in many sizes and shapes and are made for many purposes. A Converging LensA Diverging Lens

Copyright © 2010 McGraw-Hill Ryerson Ltd. Lenses have at least one curved surface and refract light in a particular way. A converging lens makes parallel light rays come together. A diverging lens makes parallel light rays move apart. The extent that the rays converge or diverge is determined by the material the lens is made of and its shape.

Copyright © 2010 McGraw-Hill Ryerson Ltd. Converging Lenses Since lenses have two sides, they have a focal point on each side. When parallel rays close to the principal axis pass through a converging lens, the rays all meet at one point on the other side of the lens. This point is the focal point. The rays are drawn so they refract only once at the centre of the lens.

Copyright © 2010 McGraw-Hill Ryerson Ltd. Rules for Drawing Ray Diagrams for Converging Lenses Ray diagrams can be drawn to find an image formed by a lens. With lenses you draw three rays, and all three rays must meet at the same point. The rules for drawing rays for converging lenses are as follows: Any ray that enters a lens parallel to the principal axis will pass through the focal point on the other side of the lens. Any ray that travels through the centre of the lens will keep travelling in the same direction. Any ray that enters the lens from the focal point will leave the lens parallel to the principal axis.

Copyright © 2010 McGraw-Hill Ryerson Ltd. Reviewing the Focal Point of a Converging Lens Click the “Start” button to review finding the focal point of a converging lens.

Copyright © 2010 McGraw-Hill Ryerson Ltd. Rules for Drawing Ray Diagrams for Converging Lenses Rays passing through the centre of the lens at the principal axis do not change direction. This is because near the principal axis the lens is nearly flat on both sides. Therefore the ray of light is refracted by the same amount on both sides.

Copyright © 2010 McGraw-Hill Ryerson Ltd. Drawing Ray Diagrams for Converging Lenses with Objects Beyond F

Copyright © 2010 McGraw-Hill Ryerson Ltd. Drawing Ray Diagrams for Converging Lenses with Objects Beyond F

Copyright © 2010 McGraw-Hill Ryerson Ltd. Drawing Ray Diagrams for Converging Lenses with Objects Beyond F

Copyright © 2010 McGraw-Hill Ryerson Ltd. Analyzing Ray Diagrams for Converging Lenses Click the “Start” button to analyze a ray diagram for a converging lens.

Copyright © 2010 McGraw-Hill Ryerson Ltd. Converging lenses can produce different types of images. The first lens known to be used was a converging lens called a reading stone. Reading stones formed images that were upright and larger than the object. How can a converging lens produce both upright and inverted images?

Copyright © 2010 McGraw-Hill Ryerson Ltd. Drawing Ray Diagrams for Converging Lenses with the Object between the Lens and F

Copyright © 2010 McGraw-Hill Ryerson Ltd. Drawing Ray Diagrams for Converging Lenses with the Object between the Lens and F

Copyright © 2010 McGraw-Hill Ryerson Ltd. Drawing Ray Diagrams for Converging Lenses with the Object between the Lens and F If the object is between the focal point (F) and the converging lens, a larger (magnified) right-side-up image is formed. Remember that when the object was outside the focal point (F), an inverted image was formed.

Copyright © 2010 McGraw-Hill Ryerson Ltd. Reviewing a Ray Diagram for Converging Lens Click the “Start” button to review a ray diagram for a converging lens.

Copyright © 2010 McGraw-Hill Ryerson Ltd. Put Science To Work

Copyright © 2010 McGraw-Hill Ryerson Ltd. Topic 4.6 Review Key concepts to be reviewed: Lenses have at least one curved surface and refract light in a predictable way. Converging lenses can produce different types of images.