1 / 27

Mirrors and Lenses

Mirrors and Lenses. Objectives. Describe the functions of convex and concave lenses, a prism, and a flat mirror. Describe how light rays form an image. Calculate the angles of reflection and refraction for a single light ray.

frederickc
Download Presentation

Mirrors and Lenses

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Mirrors and Lenses

  2. Objectives • Describe the functions of convex and concave lenses, a prism, and a flat mirror. • Describe how light rays form an image. • Calculate the angles of reflection and refraction for a single light ray. • Draw the ray diagram for a lens and a mirror showing the object and image. • Explain how a fiber-optic circuit acts like a pipe for light. • Describe the difference between a real image and a virtual image and give an example of each.

  3. Key Question: How do we describe the reflection and refraction of light? Reflection and Refraction

  4. The overall study of how light behaves is called optics. Reflection and Refraction

  5. A lens is an optical device that is used to bend light in a specific way. A converging or convex lens bends light so that the light rays come together to a point. A diverging or concave lens bends light so it spreads light apart instead of coming together. Reflection and Refraction

  6. Mirrors reflect light and allow us to see ourselves. A prism is another optical device that can cause light to change directions. A prism is a solid piece of glass with flat polished surfaces. Reflection and Refraction

  7. Images appear in mirrors because of how light is reflected by mirrors. The incident ray follows the light falling onto the mirror. The reflected ray follows the light bouncing off the mirror. Reflection

  8. In regular reflection each incident ray bounces off in a single direction. A surface that is not shiny creates diffuse reflection. In diffuse reflection, a single ray of light scatters into many directions. Reflection

  9. The incident ray strikes the mirror. The reflected ray bounces off. Law of Reflection The angle of incidence equals the angle of reflection.

  10. Light rays may bend as they cross a boundary from one material to another, like from air to water. This bending of light rays is known as refraction. The light rays from the straw are refracted (or bent) when they cross from water back into air before reaching your eyes. Refraction

  11. When a ray of light crosses from one material to another, the amount it bends depends on the difference in index of refraction between the two materials. Refraction

  12. When white light passes through a glass prism, blue is bent more than red. Colors between blue and red are bent proportional to their position in the spectrum. Prisms

  13. The variation in refractive index with color is called dispersion. A rainbow is an example of dispersion in nature. Tiny rain droplets act as prisms separating the colors in the white light rays from the sun. 17.1 Dispersion and prisms

  14. Key Question: How does a lens or mirror form an image? Mirrors, Lenses, and Images

  15. We see a world of images created on the retina of the eye by the lens in the front of the eye. Mirrors, Lenses, and Images

  16. Objects are real physical things that give off or reflect light rays. Images are “pictures” of objects that are formed in space where light rays meet. Mirrors, Lenses, and Images

  17. The most common image we see every day is our own reflection in a mirror. The image in a mirror is called a virtual image because the light rays do not actually come together. Mirrors, Lenses, and Images • The virtual image in a flat mirror is created by the eye and brain.

  18. Light rays that enter a convex lens parallel to its axis bend to meet at a point called the focal point. The distance from the center of the lens to the focal point is called the focal length. The optical axis usually goes through the center of the lens. Mirrors, Lenses, and Images

  19. A lens can form a virtual image just as a mirror does. Rays from the same point on an object are bent by the lens so that they appear to come from a much larger object. The image formed by a lens

  20. A convex lens can also form a real image. In a real image, light rays from the object actuallycome back together. The image formed by a lens

  21. Key Question: How are the properties of images determine? Optical Systems

  22. Optical Systems • An optical system is a collection of mirrors, lenses, prisms, or other optical elements that performs a useful function with light. • Characteristics of optical systems are: • The location, type, and magnification of the image. • The amount of light that is collected. • The accuracy of the image in terms of sharpness, color, and distortion. • The ability to change the image, like a telephoto lens on a camera. • The ability to record the image on film or electronically.

  23. A technique known as image relay is used to analyze an optical system made of two or more lenses. Image relay

  24. Application: The Telescope

More Related