Presentation is loading. Please wait.

Presentation is loading. Please wait.

Total Internal Reflection, Dispersion Section 26-8 Physics 1161: PreLecture 24.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Total Internal Reflection, Dispersion Section 26-8 Physics 1161: PreLecture 24."— Presentation transcript:

1 Total Internal Reflection, Dispersion Section 26-8 Physics 1161: PreLecture 24

2 Internal Reflection When light travels from a slow medium to a fast medium, the angle of refraction is larger than the angle of incidence. When the angle of refraction should be 90 o or greater, there is total internal reflection. The incident angle which predicts a 90 o refraction angle is called the critical angle. Applet

3 Critical Angle n 1 sin  c = n 2 sin 90 o n 1 sin  c = n 2 sin  c = n 2 / n 1  c = sin -1 (n 2 / n 1 ) What is the critical angle for a water-air boundary?

4 Internal Reflection All rays reflect internally, but the top three rays reflect only a small percentage internally; most energy leaves the prism. The fourth and fifth rays are reflected 100 % internally

5 Water Critical Angle

6 Fiber Optics Telecommunications Arthroscopy Laser surgery Total Internal Reflection only works if n outside < n inside At each contact w/ the glass air interface, if the light hits at greater than the critical angle, it undergoes total internal reflection and stays in the fiber. n inside n outside

7 Fiber Optics At each contact w/ the glass air interface, if the light hits at greater than the critical angle, it undergoes total internal reflection and stays in the fiber. We can be certain that n cladding < n inside n inside Add “cladding” so outside material doesn’t matter! n cladding n outside

8 Dispersion prism White light Blue light gets deflected more n blue > n red The index of refraction n depends on color! In glass: n blue = 1.53n red = 1.52

9 Dispersion Blue Bends Best

10 Different Frequencies Different Indices of Refraction

11 Refractive Index Function of Wavelength

12 Table of Indices

13 Refraction & Reflection in a Raindrop

14 Rainbow Formation An observer sees red light coming from droplets of water higher in the sky. Droplets of water lower in the sky send violet light to the eye.

15

16 LIKE SO!In secondary rainbow pattern is reversed

Download ppt "Total Internal Reflection, Dispersion Section 26-8 Physics 1161: PreLecture 24."

Similar presentations

Properties of Light.

Properties of Light.
Refraction Phenomena including Total Internal Reflection

Refraction Phenomena including Total Internal Reflection
Snell’s Law Snell’s Law describes refraction as light strikes the boundary between two media n1 sin q1 = n2 sin q2 The index of refraction of a pure vacuum.

Snell’s Law Snell’s Law describes refraction as light strikes the boundary between two media n1 sin q1 = n2 sin q2 The index of refraction of a pure vacuum.
Formation of Rainbow.

Formation of Rainbow.
Chapter 22 Reflection and Refraction of Light. Law of reflection and refraction The incident ray, the normal and the reflected ray are coplanar. θ 1 =

Chapter 22 Reflection and Refraction of Light. Law of reflection and refraction The incident ray, the normal and the reflected ray are coplanar. θ 1 =
Electromagnetic Waves Physics 202 Professor Vogel (Professor Carkner’s notes, ed) Lecture 12.

Electromagnetic Waves Physics 202 Professor Vogel (Professor Carkner’s notes, ed) Lecture 12.
Moza M. Al-Rabban Professor of Physics

Moza M. Al-Rabban Professor of Physics
2 nd & 3 th N.U.T.S. Workshops Gulu University Naples FEDERICO II University 8 – Weather Optics.

2 nd & 3 th N.U.T.S. Workshops Gulu University Naples FEDERICO II University 8 – Weather Optics.
PHY 1371Dr. Jie Zou1 Chapter 35 The Nature of Light and the Laws of Geometric Optics (Cont.)

PHY 1371Dr. Jie Zou1 Chapter 35 The Nature of Light and the Laws of Geometric Optics (Cont.)
Refraction of an EM Wave n air =1.0003 n water =1.33 Index of refraction n = c/v Direction of propagation bends toward the normal axis going from 1 medium.

Refraction of an EM Wave n air = n water =1.33 Index of refraction n = c/v Direction of propagation bends toward the normal axis going from 1 medium.
Physics 1051 Lecture 7 Slide 1 Refraction of Light –Part 2.

Physics 1051 Lecture 7 Slide 1 Refraction of Light –Part 2.
Physics 1502: Lecture 28 Today’s Agenda Announcements: –Midterm 2: Monday Nov. 16 … –Homework 08: due next Friday Optics –Waves, Wavefronts, and Rays.

Physics 1502: Lecture 28 Today’s Agenda Announcements: –Midterm 2: Monday Nov. 16 … –Homework 08: due next Friday Optics –Waves, Wavefronts, and Rays.
Total Internal Reflection

Total Internal Reflection
Rainbows, Fiber Optics, Sun Dogs, Sun Glasses sections 26-8 & 25-5 Physics 1161: Lecture 18.

Rainbows, Fiber Optics, Sun Dogs, Sun Glasses sections 26-8 & 25-5 Physics 1161: Lecture 18.
Chapter 29 – Reflection & Refraction

Chapter 29 – Reflection & Refraction
Reflection and Refraction of Light

Reflection and Refraction of Light
 Light- A wave motion and contains many different wavelengths which represent the different colours  Dispersion- The way light is split up into the.

 Light- A wave motion and contains many different wavelengths which represent the different colours  Dispersion- The way light is split up into the.
Rainbows, Fiber Optics, Sun Dogs, Sun Glasses sections 26-8 & 25-5 Physics 1161: Lecture 18.

Rainbows, Fiber Optics, Sun Dogs, Sun Glasses sections 26-8 & 25-5 Physics 1161: Lecture 18.
The wheel that strikes the grass first slows first, causing the direction to change. Part of the wave strikes the surface first and therefore slows.

The wheel that strikes the grass first slows first, causing the direction to change. Part of the wave strikes the surface first and therefore slows.
REFRACTION (Bending of Light) Light slows down or speeds up when it enters and leaves another material.

REFRACTION (Bending of Light) Light slows down or speeds up when it enters and leaves another material.

Similar presentations

Ads by Google