Light and images.ppt pptx for grade 10 physics

IGCSE Physics
Light and images

Lesson 6 – Light and images
Aims:
•To recall that light waves are transverse waves which
can be reflected.
•To recall that the angle of incidence equals the angle of
reflection.
•To construct ray diagrams to illustrate the formation of
a virtual image in a plane mirror.

Transverse Waves
Particles vibrate at right angles to the direction of the wave’s
motion
Wave’s direction
Vibration
Examples
All electromagnetic waves (X rays,  rays, ultraviolet, light,
infrared, microwaves and radio waves), water waves, some slinky
spring waves, seismic waves – the S and L types.

The vibrator moves up and down; the wave
moves along. The vibration is at right angles to
the direction of propagation (motion).

A luminous object gives out light and can also be called
a light source.
Light travels in a straight line directly into your eye.
How does light from a light bulb and other light sources
reach your eye?

Objects that do not give out light are non-luminous.
Light from the light source strikes the book
and some of the light is reflected into your eye.
How does your eye see non-luminous objects such as a
book?

Transparent materials, such as glass,
let nearly all the light that falls on them
pass through. Very little light is
reflected or absorbed by the material.
Opaque materials, such as wood, do
not let any of the light that falls on them
pass through. All the light is either
reflected or absorbed by the wood.
Translucent materials, such as frosted
glass, let some of the light that falls on
them pass through. The rest of the light is
reflected or absorbed by the material.
Transparent, opaque and translucent

Shiny surfaces reflect a lot more of the
light that falls on them than matt
surfaces.
Mirrors are pieces of glass with a coating of silver on one
side. The silver reflects the light passing through the glass.
If the surface of the silver is flat we are able to see
reflected images clearly, because the light from them is
reflected by the mirror into our eyes.
Shiny surfaces
They often look brighter than
surrounding objects as more of the light
falling on them is reflected into our eye.
You can often also see reflections of
other objects on their surface.

We can investigate light by using ray boxes in a
darkened room. Ray boxes produced a narrow beam
of light (called a light ray) which makes it easier to
study effects such as reflection and refraction.
Ray boxes

When we draw a diagram of an experiment using
a ray box we represent the beam of light using a
straight line. An arrow is placed on the beam
showing the direction the light is travelling in.
When we draw a ray
diagram we must:
 Use a sharp pencil
 Draw clearly and
accurately
Ray diagrams

When we draw a ray diagram and a ray of light hits
the surface of an object we add a line to the diagram
called the normal. The normal is drawn at right
angles (90°) to the surface the ray has hit.
The normal is drawn in as we can measure the angle
between the ray and the normal.
The normal
normal

Some mirrors are curved. These
give distorted images.
If a mirror curves inwards then it is a
concave mirror; if it curves outwards
it is a convex mirror.
When we draw a ray diagram we
represent a mirror by drawing a line
with dashes on the silvered (non-shiny)
side. Most mirrors are flat and these
are called plane mirrors. They give
non-distorted lifelike images.
A plane
mirror
A
concave
mirror
A
convex
mirror
Types of mirror

Reflected
ray
Incident
ray
i r
angle of incidence (i) = angle of reflection (r)
This is called the law of reflection and is true for any type
of wave being reflected from a surface.
Law of reflection

By positioning two
plane mirrors at 45°
to each other at
either end of a tube
we can make a
periscope.
The periscope
Periscopes
are used in
submarines
to see what is
on the
surface of the
water from
underwater.

When you look at some writing in a mirror you will notice
that it appears backwards. We can work out what is
happening by drawing a ray diagram.
The light rays swap over when they are
reflected. This causes the image to
appear laterally inverted (backwards)
when compared to the original object.
c
a
t
Lateral inversion

You must be able to
draw a virtual
image behind a
mirror in the IGCSE
examination.

When you look at a mirror you see a virtual image
that appears to be behind the mirror.
distance distance
The image appears
to be the same size
as the original
object and the same
distance behind the
mirror as the object
is from the mirror.
virtual
image
Virtual images
object

Summary – Light and images
•Transverse light waves can be reflected.
•To recall that the angle of incidence equals the angle of
reflection.
•The normal line is at right angles to a surface.
•Ray diagrams can be used to illustrate the formation of
a virtual image in a plane mirror.

Light and images.ppt pptx for grade 10 physics

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Light and images.ppt pptx for grade 10 physics