Refraction & Lenses. Refraction The change in direction of a wave as is crosses the boundary between two media in which the wave travels at different.

Slides:

Advertisements

Similar presentations

Foundations of Physics

Advertisements

Index of Refraction Index of refraction of a material equals the speed of light in a vacuum divided by the speed of light in the material.

Chapter 15 Pretest Light and Refraction

Law of Reflection (Smooth Surface):

Refraction of Light Chapter 18, Section 1.

UNIT 8 Light and Optics 1. Monday February 27 th 2 Light and Optics.

L 32 Light and Optics [2] Measurements of the speed of light  The bending of light – refraction  Total internal reflection  Dispersion Rainbows Atmospheric.

Bellringer What color would a basketball appear to be if under an orange flashlight? What color would it appear to be if under a red flashlight?

Reflection and Refraction of Light

1 L 30 Light and Optics - 2 Measurements of the speed of light (c) Index of refraction v medium = c/n –the bending of light – refraction –total internal.

The Refraction of Light The speed of light is different in different materials. We define the index of refraction, n, of a material to be the ratio of.

Color in the day and night skies Optical phenomena in the atmosphere is varied and can be awe inspiring. Can range from auroras to halos, sun pillars to.

Reflection and Refraction Light interacts with matter Interaction begins at surface and depends on –Smoothness of surface –Nature of the material –Angle.

IGCSE Unit 2 Light Cambridge IGCSE Physics

L 32 Light and Optics [2] Measurements of the speed of light  The bending of light – refraction  Total internal reflection  Dispersion Rainbows Atmospheric.

© 2010 Pearson Education, Inc. Conceptual Physics 11 th Edition Chapter 28: REFLECTION & REFRACTION Reflection Principle of Least Time Law of Reflection.

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

Refraction, Lenses, & Sight. Refraction The change in direction of a wave as is crosses the boundary between two media in which the wave travels at different.

Refraction and Lenses Light bends--so you can see better!

Refraction and Lenses Light bends--so you can see better!

Refraction. Optical Density  Inverse measure of speed of light through transparent medium  Light travels slower in more dense media  Partial reflection.

The Refraction of Light: Lenses and Optical Instruments.

Write down each definition and match it with the correct term. 1.A picture of an object formed by light rays 2.The point where parallel light rays striking.

Ch. 2.3 REFLECTION AND REFRACTION. Reflection Reflection occurs when an object or wave bounces back off a surface through which it cannot pass Law of.

Light So far when we have talked about waves we have talked about sound waves. Light is a special type of wave.

Refraction and lenses. Why is it that when you dip a pencil in a jar of water, the pencil appears to bend?

Refraction is the change of direction of a light wave caused by a change in speed as the wave crosses a boundary between materials.

L 32 Light and Optics [2] Measurements of the speed of light  The bending of light – refraction  Total internal reflection  Dispersion Rainbows Atmospheric.

Optics Gabrielle DePetro Amy Chang Tiffany Chau. Introduction to Optics Optics- study of how light behaves Speed of light- 3 x 10^8 m/s Speed of sound-

Ch23 Geometric Optics Reflection & Refraction of Light.

Refraction. As the speed of light is reduced in the slower medium, the wavelength is shortened proportionately. The frequency is unchanged; it is a characteristic.

TYPE OF IMAGE Real vs Virtual –Real Images can be seen on a piece of paper or screen placed because the focal point is in front of the mirror or behind.

Optical Phenomenal Chapter 14 section 3. Objectives  Predict whether light will be refracted or undergo total internal reflection.  Recognize atmospheric.

1. How is the index of refraction calculated? How is light refracted as it speeds up? How is light refracted as it slows down? Index of refraction = speed.

Ch. 17 Reflection and Refraction Milbank High School.

Chapter 17 Reflection & Refraction. Reflection When light rays bounce back off of a medium boundary.

L 30 Light and Optics - 2 Measurements of the speed of light (c)

1 By Mike Maloney © 2003 Mike Maloney2 Light as a Ray Light very often travels in straight lines. We represent light using rays, which are straight lines.

Reflection and Refraction

Lenses. Refraction (p 308) Refraction occurs when a wave changes the direction in which it is moving This is caused by a change in speed as the wave passes.

Refraction of Light Refraction Refraction –Refraction occurs when light waves traveling from one medium to another with a different density bend. –The.

2 pt 3 pt 4 pt 5pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2pt 3 pt 4pt 5 pt 1pt 2pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4pt 5 pt 1pt Nature of Light Electromagnetic Spectrum.

Chapter 14 Preview Objectives Refraction of Light

Chapter 22 Reflection and Refraction of Light Herriman High AP Physics 2.

Refraction, Lenses, & Color Created by Stephanie Ingle Kingwood High School Revised 5/09 by Susan Butler.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Section 1 Refraction Chapter 14 Refraction of Light The speed of.

Reflection and Refraction of Light From “College Physics” Serway and Faughn with modifications.

Refraction of Light Chapter 18, Section 1. Refraction  When light encounters a transparent or translucent medium, some light is reflected from the surface.

17.1 Reflection and Refraction. Chapter 17 Objectives  Describe the functions of convex and concave lenses, a prism, and a flat mirror.  Describe how.

1 REFRACTION OF LIGHT. 2 Chapter 18 Objectives: 1) Define refraction of light including examples. 2) Know which direction a light ray bends as it travels.

REFRACTION AND LENSES BY: Tate Edmondson and Jaffe Gale.

PHY 102: Lecture Index of Refraction 10.2 Total Internal Reflection 10.3 Prism and Rainbows 10.4 Lenses 10.5 Formation of Images 10.6 Lens Equations.

Refraction & Lenses. Refraction of Light When a ray of light traveling through a transparent medium encounters a boundary leading into another transparent.

-Atmospheric Refraction -Total Internal Reflection

VISIBLE LIGHT. LIGHT EXPECTATIONS 1.LIGHT INTERACTS WITH MATTER BY REFLECTION, ABSORPTION OR TRANSMISSION. 2. THE LAWS OF REFLECTION AND REFRACTION DESCRIBE.

Week 10 - TOTAL Internal Reflection & DISPERSION.

A farsighted person’s cornea and lens focus images behind the retina

Refraction and Lenses.

Refraction and Lenses.

L 32 Light and Optics [2] Measurements of the speed of light 

Lenses and Ray Diagrams.

Refraction and Snell’s Law

Refraction and Reflection

Lenses and Image.

Mirrors and Lenses.

Jeopardy Click to begin..

Refraction Optical Phenomena.

Refraction Optical Phenomena.

Refraction and Lenses.

Presentation transcript:

Refraction & Lenses

Refraction The change in direction of a wave as is crosses the boundary between two media in which the wave travels at different speeds.

Index of Refraction

Snell’s Law

Index of Refraction

Lenses

Converging Lens

Rules For Converging Lenses 1)Any incident ray traveling parallel to the principal axis of a converging lens will refract through the lens and travel through the focal point on the opposite side of the lens. 2)Any incident ray traveling through the focal point on the way to the lens will refract through the lens and travel parallel to the principal axis. 3)An incident ray which passes through the center of the lens will in effect continue in the same direction that it had when it entered the lens.

Image Formation by Converging Lens

Diverging Lens

Rules For Diverging Lenses 1)Any incident ray traveling parallel to the principal axis of a diverging lens will refract through the lens and travel in line with the focal point (i.e., in a direction such that its extension will pass through the focal point). 2)Any incident ray traveling towards the focal point on the way to the lens will refract through the lens and travel parallel to the principal axis. 3)An incident ray which passes through the center of the lens will in effect continue in the same direction that it had when it entered the lens.

Diverging Lens Image Formation Always Virtual, Smaller, and Right-Side Up

Optical phenomena Dispersion Total Internal Reflection (TIR) Critical angle and periscopes Fiber optics Chromatic abberation

Dispersion The separation of light into colors arranged according to their frequency, by interaction with a prism or diffraction grating.

Rainbows Perhaps the most spectacular and best known atmospheric optical phenomenon is the rainbow. Sunlight and water droplets are necessary for the formation of a rainbow. Furthermore, the observer must be between the Sun and rain. When a rainbow forms, the water droplets act as prisms and refraction disperses the sunlight into the spectrum of colors, a process called dispersion. The curved shape of the rainbow results because the rainbow rays always travel toward the observer at an angle between 40 and 42° from the path of the sunlight.

Rainbows White light separates into different colors (wavelengths) on entering the raindrop because red light is refracted by a lesser angle than blue light. On leaving the raindrop, the red rays have turned through a smaller angle than the blue rays, producing a rainbow.

Why is a Rainbow Curved?

Total internal reflection (TIR )

Fiber optics

Chromatic aberration Occurs for converging lenses and arises because the index of refraction of the lens material varies with wavelength. --colors pass through lens and refract at different angles --this is related to dispersion --a blurred image like below is produced

Aurora borealis Optical phenomena in the atmosphere is varied and can be awe inspiring. Can range from auroras to halos, sun pillars to green flashes. Aurora borealis is caused by the collision of energetic charged particles with atoms in the high altitude atmosphere

Auroras - interaction of the Sun’s particles (solar wind) and the magnetosphere of Earth.

Green Flash (not the comic-book character) Seen on upper rim of rising or setting sun (more common). There is so much atmosphere to penetrate when sun is on horizon, sunlight is refracted. Purple, blue bend the most, red the least. Blue light should appear at top of sun, but blue light is scattered selectively, so green light is seen.