chapter 18 reading quiz ray optics - home - physics...

• The ray model of light

• Reflection

• Refraction

• Dispersion

• Ray tracing for lenses

Chapter 18

Ray Optics

Topics:

Copyright © 2007, Pearson Education, Inc., Publishing as Pearson Addison-Wesley.

• Ray tracing for lenses

• Ray tracing for mirrors

Sample question:

Why are there two images of this turtle in an aquarium, and why

does each image appear to be a different size?

Why are there two images of this turtle in an aquarium, and why

does each image appear to be a different size?

Slide 18-1

Reading Quiz

1. When an object like a tree is illuminated by the sun, and you are looking toward the tree, light rays leave the object

A. only from points at the top and base of the tree, but in

every direction.

B. from every point on the surface of the tree, but only toward

your eyes.

C. only from points at the top and base of the tree, but only

toward your eyes


toward your eyes

D. from every point on the surface of the tree and in every

direction.

When an object like a tree is illuminated by the sun, and you are looking toward the tree, light rays leave the object

only from points at the top and base of the tree, but in

from every point on the surface of the tree, but only toward

only from points at the top and base of the tree, but only

from every point on the surface of the tree and in every

Slide 18-2

1. When an object like a tree is illuminated by the sun, and you

are looking toward the tree, light rays leave the object

Answer


D. from every point on the surface of the tree and in every direction.

When an object like a tree is illuminated by the sun, and you

are looking toward the tree, light rays leave the object

from every point on the surface of the tree and in every

Slide 18-3

Reading Quiz

2. A light ray can change direction when going from one material

into another. This phenomenon is known as

A. reflection.

B. absorption.

C. refraction.

D. scattering.


2. A light ray can change direction when going from one material

into another. This phenomenon is known as

Slide 18-4

2. A light ray can change direction when going from one material into another. This phenomenon is known as

C. refraction.

Answer


2. A light ray can change direction when going from one material into another. This phenomenon is known as

Slide 18-5

The Ray Model of Light

Light rays travel in straight lines.

Light rays can cross.


An object is a source of light rays.

A light ray travels forever unless it A light ray travels forever unless it

interacts with matter.

The eye sees by focusing a bundle of rays.

Slide 18-6

Sources of Light Rays: Self

A ray source


An extended source

Sources of Light Rays: Self-Luminous Objects

A point source

A parallel-ray source

Slide 18-7

Seeing Objects

Seeing a point or extended source


Seeing a ray source

Seeing an object by scattered light

Seeing a point or extended source

Slide 18-8

Shadows

Copyright © 2007, Pearson Education, Inc., Publishing as Pearson Addison-Wesley. Slide 18-9

If the aperture is very small, how far apart on the screen built into the left side of the box are the images of the pointgreen light sources?

Example


If the aperture is very small, how far apart on the screen built into the left side of the box are the images of the point-like red and

Slide 18-10

If the aperture is a circle 1 cm in diameter, what are the size and

shape of the image of the green pointneed to know how far below the center of the aperture that source is?

Example


If the aperture is a circle 1 cm in diameter, what are the size and

shape of the image of the green point-like light source? Do you need to know how far below the center of the aperture that source

Slide 18-11

The Law of Reflection


1.The incident ray and the

reflected ray are in the same

plane normal to the surface,

and

Slide 18-12

and

2.The angle of reflection

equals the angle of incidence:

θr = θi .

The Plane Mirror


Refraction


Snell’s Law of Refraction


n1 sinθ1 = n2 sinθ2

Slide 18-15 Copyright © 2007, Pearson Education, Inc., Publishing as Pearson Addison-Wesley. Slide 18-16

What is the index of refraction of tthe figure?

Example


f the plastic if a ray is refracted as in

Slide 18-17

Total Internal Reflection


1 2c

1

sinn

nθ

−

=

Slide 18-18

Color and Dispersion


Thin Lenses and Ray Tracing

The focal point of a converging lens


The focal point of a diverging lens

Thin Lenses and Ray Tracing

Slide 18-20

Three Important Sets of Rays: Converging Lenses



Slide 18-21

Ray Tracing: Real Images



Which of these ray diagrams is possibly correct?

Checking Understanding



Slide 18-24


Answer



Slide 18-25

Magnification

m =′h

h=


=′s

s

Slide 18-26

Ray Tracing: Virtual Images


Ray Tracing: Virtual Images

Slide 18-27




Slide 18-28


Checking Understanding

In this figure the image is produced by a lens. At which position A–E is the lens?


In this figure the image is produced by a lens. At

Slide 18-30


which position A–E is the lens?

Answer



Slide 18-31

Spherical Mirrors and Ray Tracing

The focal point of a concave mirror


The focal point of a convex mirror

Spherical Mirrors and Ray Tracing

Slide 18-32

Three Sets of Special Rays for a Concave Mirror


Three Sets of Special Rays for a Concave Mirror

Slide 18-33

A Real Image Formed by a Concave Mirror


A Real Image Formed by a Concave Mirror

Slide 18-34


Three Sets of Special Rays for a Convex Mirror


Three Sets of Special Rays for a Convex Mirror

Slide 18-36

chapter 18 reading quiz ray optics - home - physics...

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