Presentation is loading. Please wait.

Presentation is loading. Please wait.

Dispersion. ~separating white light into the spectrum This can be done with refraction. Light bends when it enters a new medium. Each color bends a little.

Published byJoy Casey Modified over 8 years ago

Similar presentations

Presentation on theme: "Dispersion. ~separating white light into the spectrum This can be done with refraction. Light bends when it enters a new medium. Each color bends a little."— Presentation transcript:

1 Dispersion

2 ~separating white light into the spectrum This can be done with refraction. Light bends when it enters a new medium. Each color bends a little bit differently. red bends the least, violet bends the most. If you use an appropriately shaped piece of glass, plastic or other transparent material you can separate the colors.

3 Diagram of a prism White light The triangle shape maximizes the separation. A complete picture looks like this

4 Rainbows Raindrops can also disperse light Sunlight Raindrop It reflects back here If we zoom way out of this diagram…

5 Rainbows Our raindrop is here Sunlight comes in At this height you only see red, all other colors pass over your head. But there are lots of raindrops You only see green here Cleaning this image up some.

6 Rainbows You only see green here You only see red here You only see violet here The other colors are in between. All other colors either pass over you or under you.

7 Total internal reflection This is not actually reflection, it is refraction. ~bending of light when it changes mediums This bending can cause the light to never leave the medium. So it appears to reflect instead of refract. This is called total internal reflection. Critical angle- minimum angle of incidence required for TIR to occur.

8 Diagrams of total internal reflection (TIR) Regular refraction TIR at critical angle TIR

9 Where you see total internal reflection (TIR) Diamonds They are cut so light can not get out except for the top facets You get flashes of light (sparkles) from certain facets It also disperses giving you several colors

10 Diamonds White light come in This is greater than the critical angle (24.6 o from the normal for a diamond) It will continually TIR and disperse until it hits the top (the only place that gives it a chance to get out)

11 Fiber Optics “light pipes” TIR light across a fiber. -like shooting a bullet through a pipe. fibers are made of a plastic or bendable glass. Fiber optic tubes can be used to illuminate hard to reach places. like for noninvasive surgery

12 Fiber optic tubes light comes in here and leaves here

13 Carrying information Fiber optic fibers carry light impulses just like wires carry electrical impulses. Except thin fiber optic fibers can carry more information than thick copper wires. Also fiber optic fibers don’t corrode very useful in undersea cables

14 Homework Pg 598-9 22-30

Download ppt "Dispersion. ~separating white light into the spectrum This can be done with refraction. Light bends when it enters a new medium. Each color bends a little."

Similar presentations

Total Internal Reflection. Remember – when light goes from a more dense medium to a less dense medium it speeds up & bends away from the normal Remember.

Total Internal Reflection. Remember – when light goes from a more dense medium to a less dense medium it speeds up & bends away from the normal Remember.
Total Internal Reflection (TIR ) from STAO’s ScienceWorks Gr. 10 Optics Survival CD Lesson 13.

Total Internal Reflection (TIR ) from STAO’s ScienceWorks Gr. 10 Optics Survival CD Lesson 13.
Law of Reflection (Smooth Surface):

Law of Reflection (Smooth Surface):
Moza M. Al-Rabban Professor of Physics

Moza M. Al-Rabban Professor of Physics
L 29 Light and Optics - 1 Measurements of the speed of light: c = 3 × 10 8 m/s = 186,000 miles/s light propagating through matter – transparent vs. opaque.

L 29 Light and Optics - 1 Measurements of the speed of light: c = 3 × 10 8 m/s = 186,000 miles/s light propagating through matter – transparent vs. opaque.
Total Internal Reflection, Dispersion Section 26-8 Physics 1161: PreLecture 24.

Total Internal Reflection, Dispersion Section 26-8 Physics 1161: PreLecture 24.
Homework Set 3 From “Seeing the Light” Chapter 2: (starting page 68) P22, P24, P26, PM4, From “Seeing the Light” Chapter 3: (starting page 101) P1, P2,

Homework Set 3 From “Seeing the Light” Chapter 2: (starting page 68) P22, P24, P26, PM4, From “Seeing the Light” Chapter 3: (starting page 101) P1, P2,
Physics 1051 Lecture 7 Slide 1 Refraction of Light –Part 2.

Physics 1051 Lecture 7 Slide 1 Refraction of Light –Part 2.
Total Internal Reflection

Total Internal Reflection
Reflection and Refraction of Light

Reflection and Refraction of Light
Huygen’s Principle: Electromagnetic waves can be examined using geometrical considerations instead of the relationships between the electric and magnetic.

Huygen’s Principle: Electromagnetic waves can be examined using geometrical considerations instead of the relationships between the electric and magnetic.
© 2010 Pearson Education, Inc. Conceptual Physics 11 th Edition Chapter 28: REFLECTION & REFRACTION Reflection Principle of Least Time Law of Reflection.

© 2010 Pearson Education, Inc. Conceptual Physics 11 th Edition Chapter 28: REFLECTION & REFRACTION Reflection Principle of Least Time Law of Reflection.
Refraction and Snell’s Law. Intro to Refraction Take 3 cups from the front, labeled 1,2,3. Observe each straw through the side of the cup as you slowly.

Refraction and Snell’s Law. Intro to Refraction Take 3 cups from the front, labeled 1,2,3. Observe each straw through the side of the cup as you slowly.
Ch. 17 Reflection and Refraction

Ch. 17 Reflection and Refraction
Slide 1 The Physics of Light Why and how do we see light? Slide 1 The Physics of Light Why and how do we see light?

Slide 1 The Physics of Light Why and how do we see light? Slide 1 The Physics of Light Why and how do we see light?
Light – Reflection & Mirrors 1.When light hits an object – a.The light can be reflected. b.The light can be absorbed (opaque). c.The light can be transmitted.

Light – Reflection & Mirrors 1.When light hits an object – a.The light can be reflected. b.The light can be absorbed (opaque). c.The light can be transmitted.
Refraction. The Optical Density of a Medium The better a medium transmits light, the lower its optical density. The slower light is transmitted by a medium,

Refraction. The Optical Density of a Medium The better a medium transmits light, the lower its optical density. The slower light is transmitted by a medium,
Physics 1C Lecture 25B. Mirages Mirages occur because of total internal reflection (TIR). Hot air is less dense than cool air. The less dense hot air.

Physics 1C Lecture 25B. Mirages Mirages occur because of total internal reflection (TIR). Hot air is less dense than cool air. The less dense hot air.
15.3 Optical Phenomena pp. 580 - 585 Mr. Richter.

15.3 Optical Phenomena pp Mr. Richter.
DAILY QUESTION March 17, 2009 1. How do rainbows form?

DAILY QUESTION March 17, How do rainbows form?

Similar presentations

Ads by Google