NIS – PHYSICAL SCIENCE

1. NIS – PHYSICAL SCIENCE Lecture 47 – Lecture 48 Mirrors and Lenses OzgurUnal

2. Mirrors • A mirror is any surface that produces a regular reflection. • Example: A pool of still water, a metal pan, shiny spoon etc. • Mirrors can be flat, curved inward or curved outward. • Plane mirrors: • A flat, smooth mirror is a plane mirror. • In a plane mirror, the image appears upright. • If you stand 1 m from the mirror, your image appears 1 m behind the mirror, or 2 m from you.

3. Mirrors • Virtual and real images: • Your brain assumes that light rays travel in a straight line. • Rays that enter your eyes seem to come from behind the mirror • The image seems to be behind the mirror  virtual image • Plane mirrors always form virtual images. • If light rays from an object pass through the location of the image, the image is called a real image. • Curved mirrors can form both real • and virtual images.

4. Mirrors • Concave mirrors: • If the surface of a mirror is curved inward, it is called a concave mirror. • The optical axis, or principal axis, is an imaginary line drawn perpendicular to the surface of the mirror at its center. • Every light ray traveling parallel to the optical axis is reflected through a point • on the optical axis called • the focal point.

5. Mirrors • Concave mirrors: • The image formed by a concave mirror depends on the location of the object relative to the focal point. • http://webphysics.davidson.edu/applets/Optics/prb1.html

6. Mirrors • Convex mirrors: A mirror that curves outward like the back of a spoon is called a convex mirror. • Light rays that hit a convex mirror diverge, or spread apart, after they are reflected. • The reflected rays diverge and never meet, so a convex mirror forms only a virtual image. • http://dev.physicslab.org/asp/applets/javaphysmath/java/dmirr/default.asp

7. Lenses • A lens is a transparent object with at least • one curved surface that causes light rays to • refract. • There are two types of lenses: • convex and concave • Convex lenses: • A convex lens is thicker in the • middle than the edges. • Its optical axis pass through the • thickest point and is perpendicular • to the lens itself.

8. Convex Lenses • When light rays approach a convex lens traveling parallel to its optical axis, the rays are refracted toward the center of the lens  Light rays traveling along the optical axis are not bent. • Check out Figure 19!!

9. Concave Lenses • A concave lens is thinner in the middle and thicker at the edges. • Light rays that pass through a concave lens bend away from the optical axis. • The rays spread out and never meet. • The image is always virtual, upright and smaller than the object is.

10. The Human Eye • The structure of the human eye:

11. The Human Eye • Human eye can adjust to the varying brightness and intensity of light. • Light intensity is the amount of light energy that strikes a certain area each second. • Brightness is the human perception of light intensity.

12. Vision Problems • Farsightedness: If you can see distant objects clearly but can’t bring nearby objects into focus, then you are farsighted. • What type of lens should be used to correct this problem?

13. Vision Problems • Nearsightedness: Nearsighted people can see close objects but cannot bring far objects into focus. • What type of lens should be used to correct this problem?