Eye and Light

Chapter Menu
Lesson 1: What is light?
Lesson 2: Light and Matter
Lesson 3: Using Lenses
Lesson 4: The Eye and Vision
Click on a hyperlink to view the corresponding lesson.

wavelength
frequency
medium
electromagnetic spectrum
11.1 What is light?

Light Transfers Energy
• Similar to water waves, light waves also
carry energy from place to place.
11.1 What is light?

Parts of a Wave
• The distance between
any two crests of any
two troughs is the
wavelength.
11.1 What is light?

Frequency and Wavelength
• The frequency of a
wave is the number of
wavelengths that pass a
given point in one
second.
11.1 What is light?
• As the frequency of a
wave increases,
wavelength decreases.

Electromagnetic Waves
• The substance through which a wave moves
is called the medium.
11.1 What is light?
• Light is an
electromagnetic
wave, which is a
type of wave that
can travel in
empty space as
well as in matter.

A Range of Wavelengths
• The electromagnetic spectrum includes all
electromagnetic waves.
11.1 What is light?
• It is arranged in order, from those with the
longest wavelengths to those with the
shortest wavelengths.
• Frequency increases as wavelength
decreases, and is arranged in order of
increasing frequency.

Visible Light
• The visible light spectrum is the range of
electromagnetic waves human eyes can
detect.
11.1 What is light?
• Visible light wavelengths are measured in
nanometers (nm).
• The wavelengths range from 700 nm to
400 nm.

What is the amplitude of a wave?
A distance from crest
to crest
B distance from crest
to trough
C distance from crest
to resting position
D wavelength x frequency
11.1 What is light?
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

What is a wavelength?
A the distance from
crest to trough
B the distance from crest
to the rest position
C the distance from
crest to crest
D the opposite
of frequency
11.1 What is light?
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

What is the term for the substance
through which a wave moves?
A medium
B substrate
C water
D vacuum
11.1 What is light?
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

absorption
transmission
scattering
refraction
law of reflection
11.2 Light and Matter

The Interaction of Light and Matter
• All electromagnetic waves, including light,
transfer energy from one place to another.
• When light rays hit matter, they can be
absorbed, reflected, or pass through the
matter.

Absorption of Light
• The transfer of energy
can cause the
temperature of the
material to increase.
• Absorption occurs when light rays hit a
material, and some of the rays’ energy is
transferred to the atoms in the material.

Transmission of Light
• Whether the light
waves are transmitted
or absorbed depends
on the wavelength of
the light waves.
• Transmission occurs when light waves
strike a material and pass through it, such
as with glass.

Scattering of Light
• Scattering occurs
when a material
causes light waves
traveling in one
direction to travel in
all directions.

Opaque, Transparent, and
Translucent Materials
• The three candleholders are made of
different materials that absorb, transmit,
and scatter light in different ways.

The Speed of Light in
Different Materials
• No object or wave can
move faster than the
speed of light in empty
space.
• When light waves
travel in matter, they
move more slowly.

Refraction
• Refraction occurs when a light ray
changes direction when it moves from one
material to another.

Refraction and Speed Changes
• Light waves
change direction—
refract—when they
change speed
moving from one
medium to another.
Bending Light

The Visible Spectrum
• White light is a combination of all light waves
in the visible light spectrum.
• Almost any color of
light can be made
by mixing the three
primary colors—red,
green, and blue—in
different amounts.

Reflection
• According to the law of reflection, when a
light ray is reflected from a surface, the angle
of incidence equals the angle of reflection.

Regular and Diffuse Reflection
• Light ray reflected from an uneven surface
hits a spot in the surface that is at a slightly
different angle, causing the rays to go in
many different directions.
• Diffuse reflection is the reflection of light rays
from a rough surface.

Regular and Diffuse Reflection (cont.)
• The smooth surface of a mirror reflects
parallel light rays so that they remain
parallel.
• This is called regular reflection.

Reflection and Color
• As white light strikes and
object, some of the light is
absorbed and some is
reflected.
• The reflected light enters
your eyes and causes you
to see the object.
Color

What is the term for the process of
transferring light energy to the
molecules in a material?
A transmission
B absorption
C scattering
D refraction
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

Which of the following does light
travel fastest through?
A transparent objects
B empty space
C air
D water
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

Why does an object appear to be blue?
A it absorbs the blue
wavelength
B it scatters the blue
wavelength
C it reflects all the other
colors except blue
D it absorbs all the
wavelengths except blue
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

11.3 Using Lenses
lens
convex lens
focal point
focal length

What is a convex lens?
• A lens is a transparent object with at least
one curved side that causes light waves to
bend.
• A convex lens is a lens that bulges
outward.
11.3 Using Lenses
– Convex lens: parallel light rays are bent
so they come together, or converge
– Concave lens: parallel light rays spread
apart, or diverge

What is a convex lens? (cont.)
• A concave lens is thinner in the middle than
at the edges.
11.3 Using Lenses

Light’s Path Through a Convex Lens
• A light ray bends when it slows down
moving from air into the lens.
• The light ray bends again when it speeds
up moving from the lens back into the air.
11.3 Using Lenses

Focal Point and Focal Length
• The focal point is the point where all of the
beams of light converge.
• In a convex lens, all light rays traveling
parallel to the optical axis are bent so that
they pass through the focal point.
11.3 Using Lenses

Focal Point and Focal Length (cont.)
• The focal length is the distance from the
center of the lens to the focal points.
11.3 Using Lenses

Image Formation by a Convex Lens
• The image formed by a convex lens depends
on the position of an object relative to the
focal point.
11.3 Using Lenses

Optical Instruments
• An optical instrument uses lenses to focus
light and create useful images.
11.3 Using Lenses
• Different optical instruments do this by
combining lenses in various ways.
• Types of optical instruments
– Cameras
– Telescopes
– Microscopes

Cameras
• A camera is focused by moving various
lenses back and forth until a sharp image
is formed.
11.3 Using Lenses
• The image is smaller than the object and is
upside down.
• To take a picture, the shutter opens so that
light enters the camera, and film or an
electronic sensor is exposed.

Cameras (cont.)
• To control the amount of light that
reaches the film or light sensor, cameras
have a diaphragm or an aperture.
11.3 Using Lenses

Telescopes
• As an object gets farther away, less of the
light from the object enters the openings in
your eyes.
11.3 Using Lenses
• A telescope is an optical instrument that
makes far-away objects seem closer.
• There are two basic types of telescopes—
refracting and reflecting.

Refracting Telescopes
• The objective lens in a refracting
telescope is much larger than the
opening in a human eye.
11.3 Using Lenses
• Much more light
from a distant
object enters the
objective lens
than would enter
an eye.

Reflecting Telescopes
• An image of a distant object is formed
inside the telescope tube when light
rays are reflected from the curved
surface of a mirror.
11.3 Using Lenses
• The largest
telescopes are
reflecting
telescopes.

Microscopes
• The eyepiece lens of a
microscope is positioned
so it is closer to the image
than one focal length.
11.3 Using Lenses
• This makes the image
enlarged by the objective
lens even larger.

Where do all the beams of light
passing through a convex lens
converge?
A focal point
B optical axis
C two focal lengths
from the lens
D in the center of
the lens
11.3 Using Lenses
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

What happens to light when it moves
from air into a convex lens?
A it is reflected
B it is scattered
C it slows down
D it speeds up
11.3 Using Lenses
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

Which uses a curved mirror to form
an image that is magnified by an
eyepiece lens?
A refracting telescope
B reflecting telescope
C camera
D microscope
11.3 Using Lenses
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

11.4 The Eye and Vision
cornea
pupil
iris
retina
pigment

How the Eye Forms an Image
• As light enters your
eye, lenses in your
eye focus light to
produce an image on
the back of your eye.
• Special cells at the
back of the eye
convert the image into
electrical signals that
travel to your brain.

Cornea
• Light enters your eye through the cornea,
which is a clear area of the sclera—the
outer layer of the eye.
The Eye

Parts of the Eye

Iris
• The pupil is the dark opening into the
interior of your eye.
• The pupil is surrounded by the iris—the
colored part of your eye behind the cornea.

Lens
• The lens of your eye is convex and
flexible.
• The ciliary muscles attached to the lens
change its shape depending on the distance
of the object being looked at.

Retina
• The retina is a sheet of light-sensitive
cells in the back of the eye.
• Rod cells respond to dim light and cone
cells enable you to see colors.

Seeing Color
• The response of cone cells to different
wavelengths of light cause you to see
objects as having color.
• Three types of cone cells:
– One responds to the wavelengths of red and
yellow light, causing you to see red.
– One responds to yellow and green light, causing
you to see green.
– One responds to blue and violet light, causing
you to see blue.

Pigment Colors
• A pigment is a material used to change
the color of other materials or objects.
• The color of a pigment depends on the
wavelengths of the light it reflects.

Pigment Colors (cont.)
Reflecting Light

Color Printing
• The pictures in magazines are formed
by many tiny dots of color.
• Usually, the primary colors of pigments, as
well as black, are used.

Common Vision Problems
• Color deficiency: either lack red or green
cones, or the cones do not function
correctly

Common Vision Problems (cont.)
• Nearsightedness: cannot see faraway
objects clearly

Common Vision Problems (cont.)
• Farsightedness: cannot see nearby
objects clearly
How are lenses used to correct vision?

What controls the amount of light
that enters your eye?
A ciliary muscles
B cornea
C sclera
D iris
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

What part of the eye enables you to
see colors?
A pupil
B rod cells
C cone cells
D optic nerve
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

Which describes a nearsighted eye?
A it is missing some cone
cells or the cones don’t
function properly
B the eyeball is too short
for the lens to form a
clear image
C the rods at the back of
the eye do not function
properly
D the eyeball is too long for
the lens to form a clear image
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

End of lesson – next slide is the chapter assessment

What is the wavelength range of
visible light?
A 700–400 nm
B 200–600 nm
C 300–900 nm
D 800–300 nm
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

What occurs when light waves strike
a material and pass through it?
A reflection
B absorption
C transmission
D scattering
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

Which is true according to the law of
reflection?
A if light is not refracted, it
is reflected
B parallel rays of light
remain parallel when they
are reflected
C the angle of incidence
equals the angle of
reflection
D the angle of reflection is
twice the angle of incidenceA
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

Which describes the image formed by an
object more than two focal lengths from a
convex lens?
A upside down and larger
than the object
B upside down and smaller
than the object
C right side up and smaller
than the object
D right side up and larger
than the object
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

Which part of the eye contains light-
sensitive rods and cones?
A sclera
B cornea
C optic nerve
D retina
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

What property of a wave increases
as wavelength decreases?
A crest
B trough
C frequency
D amplitude
SCI 6.a
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

In which order does light pass
through the parts of the eye?
A lens, retina, pupil
B lens, pupil, retina
C retina, lens, pupil
D pupil, lens, retina
SCI 6.b
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

Which light waves are refracted the
least after passing through a prism?
A red
B violet
C yellow
D blue
SCI 6.c
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

What occurs when you look at an
object at the bottom of a pool of
water?
A reflection
B refraction
C absorption
D scattering
SCI 6.f
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

What type of lens is present in both
your eye and a microscope?
A objective
B eyepiece
C convex
D concave
SCI 6.d
A
B
C
D
0% 0%0%0%
1. A
2. B
3. C
4. D

Eye and Light

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