Optics. dispersion Shorter wavelengths refract more than longer wavelengths – Violet light bent the most Color.

Slides:

Advertisements

Similar presentations

Chapter 10 Light.

Advertisements

Foundations of Physics

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?

REFRACTION OF LIGHT. REFRACTION THE BENDING OF LIGHT DUE TO A CHANGE IN ITS SPEED.

Lenses and Mirrors Mrs. Gergel. Lenses and Mirrors Mrs. Gergel.

2P Optics Study notes. 1. What is Light? Light is Energy. Light is Wave (Electromagnetic) Light is a Particle (Photon)

Light = straight path An atom: emits light when an electron moves from a high to a low energy level. absorbs energy as its electrons move from a low.

Welcome to Optics JEOPARDY PHysics Final Jeopardy Question Reflection Mirrors 100 Lens refraction Special topics.

Chapter 16.3 – Reflection and Color

Chapter 11 Review Mirrors & Lenses. What is an angle of incidence? 2 The angle between an incident ray and the normal of an optical device. Category:

19.2 Lenses Lenses What causes light to refract? When light enters a new medium at an angle, the change in speed causes the light to bend, or refract.

Optics Can you believe what you see?. Optics Reflection: Light is retransmitted from or “bounces off” an object.

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

EM SPECTRUM Miscellaneous Wave Properties of Light Light & Color Mirrors & Lenses.

Broadneck Physics – Chapter 17 – Refraction of Light

Broadneck Physics Water Corn Syrup Water Vegetable Oil Water.

Mirrors and Lenses Chapter 23

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

Light Chapter 18.

Refraction & Lenses Chapter 18. Refraction of Light n Look at the surface of a swimming pool n Objects look distorted n Light bends as it goes from one.

Chapter 19 – Optics Jennie L. Borders.

Sound and LightSection 3 Section 3: Reflection and Color Preview Key Ideas Bellringer Reflection of Light The Law of Reflection Mirrors Seeing Colors.

Ray Optics: Reflection and Refraction Rays Representation of the path that light follows Represent beams of light that are composed of millions.

Images and Optical Instruments. Definitions Real Image - Light passes through the image point. Virtual Image - Light does not pass through the image point.

Chapter 18: Ray Optics Lisa & Becky. Ray Model of Light  Light rays travel in straight lines  Light rays cross but do not interact  Light rays travel.

LIGHT CH. 18. What is Light? Light is an electromagnetic wave that travels through space requiring no medium.

1.What is the fundamental difference between a real image and a virtual one? 2.Parallel light rays are focused on the focal point of a concave mirror.

Optics 2: REFRACTION & LENSES. REFRACTION Refraction: is the bending of waves because of the change of speed of a wave when it passes from one medium.

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

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 Vocabulary Reflection and Mirrors.

 When light strikes the surface of an object  Some light is reflected  The rest is absorbed (and transferred into thermal energy)  Shiny objects,

Electromagnetic Waves

Optical Density - a property of a transparent medium that is an inverse measure of the speed of light through the medium. (how much a medium slows the.

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.

COLORCOLOR. COLORCOLOR Why do I see all those pretty colors?

Reflection and color, Refraction, Lenses and Prisms 15-3 and 4.

The Nature of Light. Light Can Act Like Waves or In 1801 Thomas Young an English scientist did an experiment. –Double slit experiment Passed a beam of.

Table of Contents Light and Color Reflection and Mirrors

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

Reflection and Refraction

+. + Lenses and Mirrors Mrs. Gergel + Refraction of light When light rays enter a new medium at an angle the change in speed causes them to bend, or.

Chapter 19. Reflection The smooth surface of the lake reflects light rays so that the observer sees an inverted image of the landscape.

It’s amazing!…Can you imagine life without it?

Sound and Light Chapter 4: Light Section 1: Light and Color 3: / 52 = 68.67% 5: / 52 = 82.08% 6: 42.44/52 = 81.62%

Chapter 13 Properties of Light: Reflection and Mirrors Herriman High Honors Physics.

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

Light, Mirrors, and Lenses. Light is a part of the electromagnetic spectrum.

Mav Mark What are forms of the electromagnetic spectrum?

Lights, Mirrors, and Lenses Light is another type of wave that carries energy. A light ray is a narrow beam of light that travels in a straight line. Light.

Chapter 19 Light, Mirrors, and Lenses Section 1 Properties of Light Pages

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

Chapter 14 Light & Reflection Physics. Light and Reflection ☺Electromagnetic Waves ☺Transverse Waves ☺Oscillating Electric and Magnetic Fields Perpendicular.

Light and Optics Part Three: Optics and Reflection.

Reflection of Light Reflection – The bouncing back of a particle or wave that strikes the boundary between two media. Law of Reflection – The angle of.

Lecture 2: Reflection of Light: Mirrors (Ch 25) & Refraction of Light: Lenses (Ch 26)

Physical Science Light. Reflection & Mirrors  When light strikes an object  It is either reflected, absorbed or transmitted. Opaque: a material that.

Section 3: Reflection and Color

Reflection of Light Reflection – The bouncing back of a particle or wave that strikes the boundary between two media. Law of Reflection – The angle of.

Chapter 10 Light.

Light and Color.

BEHAVIOR OF LIGHT ,,,,,,,,,,,.

Chapter 10 Light.

Refraction, Lenses, & Color

LIGHT AND COLOR Dispersion – white light breaks down

This student is looking at many colors on his computer screen

Bingo Chapter 19.

Presentation transcript:

Optics

dispersion Shorter wavelengths refract more than longer wavelengths – Violet light bent the most Color

The color of any object depends on what its made of and the color of light that strikes the object In sunlight a red car looks red because the red light is reflected from the paint and the other colors are absorbed If you shined green light on a red car there is no red light to be reflected so it looks black Color of object

Color of an object

Primary colors – can be combined in various combinations to produce all possible colors – Red – Yellow – Blue Mixing colors of light

What happens if red and blue light strike a white surface? both colors are reflected and mix together to create magenta Any two primary colors that are mixed together form a secondary color Mixing colors of light

Pigment- a material that absorbs some colors of light and reflects others – Natural pigments – clay, plants, minerals – synthetic pigments- man made Primary colors of pigments are magenta yellow cyan Mixing Pigments

Any two pigments that are mixed together and make black are called complimentary colors of pigments

Luminous- objects that give off their own light – All light sources are considered to be luminous – incandescent – Fluorescent – laser – neon – Tungsten-halogen – Sodium vapor bulbs Sources of Light

Mirrors

Optics- study how mirrors and lenses form images Ray diagram – shows how rays change direction Optics

Law of Reflection – States that the angle of reflection is equal to the angle of incidence Law of Reflection

Always produce a virtual image – copy of an object formed at the location from which the light rays appear to come Plane Mirror

Concave and convex mirrors

Concave Mirror Gcsescience.com

Concave mirror The curvature of the reflecting surface cause the light rays to come together The point where the light rays meet is called the focal point Real image- a copy of an object formed at the point where light rays actually meet

Concave mirror Concave mirrors can form virtual or real images – The type of image formed is dependent on where the object is in relationship to the mirror

Real ImageVirtual image Object is farther from the mirror than the focal point Reflected rays meet in front of the mirror object is closer to the mirror than the focal point reflected rays appear to come from behind the mirror

When an object is at the center of curvature of a spherical concave mirror a real image is formed that is inverted and the same size as the object.

Convex Mirror Convex mirrors cause light to scatter and only produce virtual images The image produced by a convex mirror is always smaller than the actual object and allows a wide angle view

Convex mirror

Convex Mirror

Lenses

Index of Refraction When light enters a new medium it refracts Index of refraction- ratio of the speed of light in a vacuum to the speed of light in the material

Index of Refraction A material with a low index of refraction (near 1) slows down light very little and will refract the light very little

Index of refraction Luster- the amount of light that strikes a gemstone and is reflected Brilliance – the amount of light that is passed through the gem Material Index of Refraction Luster Diamond % Ruby % Sapphire % Emerald %

Concave Lenses Concave lenses always cause the light rays to spread out and can only form virtual images The image is always smaller Used in the viewfinder in cameras and with mirrors in telescopes

Convex lenses Form real or virtual images depending on how far the object is from the lens As the rays pass through each one is refracted Causes parallel rays to converge and meet at a focal point

Convex lenses

Total Internal Reflection Total internal reflection is the complete reflection of a light ray back to its original medium – Critical angle – the angle of incidence that produces an angle of refraction of 90 degrees – Materials that have small critical angles are likely to cause most of the light entering them to be totally internally reflected

Fiber Optics how fiber optics work

Optical Instruments Telescopes – Reflecting telescope- uses a large concave mirror to focus incoming light rays

Optical Instruments Refracting telescope – uses a series of lenses to focus light from distant objects

Optical Instruments Cameras Microscopes