PPT on refraction and lenses by pg

12,055 views

Published on

This presentation is for class 10th science students.

0 Comments
13 Likes
Statistics
Notes
  • Be the first to comment

No Downloads
Views
Total views
12,055
On SlideShare
0
From Embeds
0
Number of Embeds
19
Actions
Shares
0
Downloads
825
Comments
0
Likes
13
Embeds 0
No embeds

No notes for slide

PPT on refraction and lenses by pg

  1. 1. Refraction and Lenses(Physics) Pritam Ghanghas K. Rohit Ashok Bishnoi
  2. 2. RefractionRefraction is based on the idea that LIGHT is passing through one MEDIUM into another it will bend towards or away the normal and this phenomenon is called refraction of light. The question is, WHAT HAPPENS? Suppose you are running on the beach with a certain velocity when you suddenly need to run into the water. What happens to your velocity? IT CHANGES! Refraction Fact #1: As light goes from one medium to another, the velocity CHANGES!
  3. 3. RefractionSuppose light comes from air, which in this case will be considered to be a vacuum, strikes a boundary at some angle of incidence measured from a normal line ,and goes into water. The ratio of the two speeds can be compared. The denominator in this case will ALWAYS be smaller and produce a unitless value greater or equal to 1. This value is called the new medium’s INDEX OF REFRACTION, n.All substances have an index of refraction and can be used to identify the material.
  4. 4. RefractionSuppose you decide to go spear fishing, but unfortunately you aren’t having much luck catching any fish. The cause of this is due to the fact that light BENDS when it reaches a new medium. The object is NOT directly in a straight line path, but rather it’s image appears that way. The actual object is on either side of the image you are viewing. Refraction Fact #2: As light goes from one medium to another, the path CHANGES!
  5. 5. Refraction is when light bends as itpasses from one medium into another. normalWhen light traveling through air air θipasses into the glass block it isrefracted towards the normal. glass blockWhen light passes back out of the θrglass into the air, it is refracted awayfrom the normal. θiSince light refracts when it changesmediums it can be aimed. Lenses are airshaped so light is aimed at a focal θrpoint. normal
  6. 6. The first telescope, designed and built by Galileo, used lenses to focus light fromfaraway objects, into Galileo’s eye. His telescope consisted of a concave lens and aconvex lens.light from convex concaveobject lens lensLight rays are always refracted (bent) towards the thickest part of the lens.
  7. 7. LensesThere are 2 basic types of lenses A converging lens (Convex) A diverging lens (concave) takes light takes light rays and bring rays and spreads them outward. them to a point.
  8. 8. • F optical axisLight rays that come in parallel to the optical axis still diverge from the focal point.
  9. 9. • F optical axisThe first ray comes in parallel to the optical axis and refracts from the focal point.
  10. 10. • F optical axisThe first ray comes in parallel to the optical axis and refracts from the focal point.The second ray goes straight through the center of the lens.
  11. 11. • F optical axisThe first ray comes in parallel to the optical axis and refracts from the focal point.The second ray goes straight through the center of the lens.The light rays don’t converge, but the sight lines do.
  12. 12. • F optical axisThe first ray comes in parallel to the optical axis and refracts from the focal point.The second ray goes straight through the center of the lens.The light rays don’t converge, but the sight lines do.A virtual image forms where the sight lines converge.
  13. 13. Convex (Converging) LensMuch like a mirror, lenses also take light rays from infinity and converge them to a specific point also called the FOCAL POINT, f. The difference, however, is that a lens does not have a center of curvature, C, but rather has a focal point on EACH side of the lens.
  14. 14. • • • • • 2F F O F 2F optical axisWhen we put object between O and F,The image properties will be: -Virtual errectBig in sizeBehind the mirror
  15. 15. When we put object at F,The image properties will be: - • • • • 2F F F 2F optical axis Real inverted Very large in size Meet at infinity
  16. 16. When we put object between 2F and F, The image properties will be: -• • • •2F F F 2F optical axis Real inverted image Big in size Beyond 2F
  17. 17. When we put object at 2F,The image properties will be: -• • • •2F F F 2F optical axis Real inverted Same in size Meet at 2F
  18. 18. When we put object beyond 2F,The image properties will be: - • • • • 2F F F 2F optical axis Real inverted Small in size Meet between F and 2F
  19. 19. When we object from infinity,The image properties will be: - • • • • 2F F F 2F optical axis Point size at F Meet at F Real inverted
  20. 20. When we put object between F and 2FThe image properties will be: - • • 2F F optical axis Virtual erect image Between 2F and O. Small in size
  21. 21. When we object rays coming from infinityThe image properties will be: - • • 2F F optical axis Virtual erect image At F.
  22. 22. f = focal length u = object distance v = image distanceAn equation which represents the relation between focal lengh (f) of lens,object distance (u) and image distance (v) is called lens formula.

×