© Boardworks Ltd 2003
IGCSE Waves : Refraction
© Boardworks Ltd 2003
By the end of this lesson you should be able to:
Define refraction
Draw ray diagrams showing refraction of light by a glass or Perspex block
List and explain everyday examples of refraction
© Boardworks Ltd 2003
Animation showing refraction at the air/glass boundary
© Boardworks Ltd 2003
Investigating refraction
Apparatus:
Power packRay boxSlitPerspex blockProtractor
The ray box
will get very
hot. Be careful
when handling it!
© Boardworks Ltd 2003
Exam tip
You will lose marks in an examination when you are drawing a light ray if you do not:
1. Use a ruler.2. Add an arrow to
show direction.
© Boardworks Ltd 2003
What to do……
Draw around the Perspex block on a piece of paper.
© Boardworks Ltd 2003
The normal
Mark on a line known as the NORMAL perpendicular to the surface of the block.
For the light ray entering the block and
the light ray leaving the block mark each
ray with two crosses.
Draw in the incident ray, emergent ray, remove the block and then join up the two rays.
Repeat several times with the light ray entering the block at different angles.
© Boardworks Ltd 2003
What happened……
As the light ray moved from air into perspex?
As the light ray moved from perspex into air?
If the angle of incidence = 0°? What do you notice about the incident
ray and the emergent ray?
© Boardworks Ltd 2003
Results
If the light ray entered the block parallel to the normal then it travels through undeviated.
If the incident ray enters the block at an angle to the normal then the direction of the ray changes as it enters and leaves the block, the light ray has been refracted.
Does the angle of incidence……
…affect the angle
of refraction?
© Boardworks Ltd 2003
Measure the angles of incidence and refraction and fill in the table below
Angle of incidence ( i) Angle of refraction ( r)
© Boardworks Ltd 2003
Air to Perspexangle of incidence > angle of refraction
i > r
As the light ray moved from air into perspex it moved towards the normal.
If light rays move from a less dense medium (air) to a more dense medium (perspex) they ‘bend’ towards the normal.
i > r
© Boardworks Ltd 2003
Perspex to Airangle of incidence < angle of refraction
i < r
As the light ray moved from perspex into air it moved away from the normal.
If light rays move from a more dense medium (perspex) to a less dense medium (air) they ‘bend’ away from the normal.
i < r
© Boardworks Ltd 2003
Angle of incidence = 0°
When the angle of incidence is 0 the light ray is not deviated from its path.
Un-deviated light ray
© Boardworks Ltd 2003
Animation to show what happens to a ray of light passing through a rectangular block of glass.
© Boardworks Ltd 2003
Revision tip
Remember the word:TAGAGA
Towards (normal) Air Glass Away (from normal) Glass Air
© Boardworks Ltd 2003
Fast and slow
If you were running along a beach and then ran into the water when would you be moving slower, in the water or on the beach?
In a similar way as light moves from one medium to another of different density the speed of light changes.
Do you think light moves faster or slower as the density of the medium it travels through increases?
In the waterLight moves more slowly through denser media.
© Boardworks Ltd 2003
The speed of light
Light travels at 300 000 km/s in a vacuum, as it enters denser media the speed of light decreases.
0306090
120150180210240270300
Vac
uu
m
Wat
er
Per
spex
Speed oflight(thousandskm/s)
Looking at the chart, which do you think is denser, Perspex or water?
Perspex must be denser because light travels slower through Perspex than water.
© Boardworks Ltd 2003
Refraction : effects of refraction
Many visual effects are caused by refraction.
This ruler appears bent because the light from one end of the ruler has been diffracted, but light from the other end has travelled in a straight line.
Would the ruler appear more or less bent if the water was replaced with glass?
More bent, because glass is more dense than water.
© Boardworks Ltd 2003
Refraction : magic coins
Place a coin in the bottom of a bowl and clamp an empty cardboard tube so that it points above the coin.
Gradually add water to the bowl and watch the coin through the tube float up - can you explain this?
© Boardworks Ltd 2003
Refraction : apparent depth
The rays of light from the coin get bent [refracted] as they leave the water.
Your eye assumes they have travelled in straight lines.
Your brain forms an image at the place where it thinks the rays have come from - the coin appears to be higher than it really is.
© Boardworks Ltd 2003
Animals and human hunters
Animals (including humans) allow for refraction when hunting fish in water.
image
actual location
The animals do not aim at the fish (it is just the refracted image), instead they aim at a location where they know from experience the fish actually is.
© Boardworks Ltd 2003
Refractive index
We can study refraction of light by comparing its speed in air to that in a medium.
A number called the refractive index is the ratio of these two speeds:
Refractive index = speed of light in air
speed of light in substance
Example:
The speed of light in air is 300 000 000 m/s, the speed of light in water is 225 000 000 m/s. What is the refractive index of water?
1.33
© Boardworks Ltd 2003
Calculating refractive index
Material Speed of light in material
Refractive index
Air 300 000 000
Water 225 000 000
Diamond 120 000 000
Perspex 200 000 000
1.0
1.33
2.5
1.5
© Boardworks Ltd 2003
Which of the following is the most dense?
A. Air
B. Water
C. Glass
D. Lead
© Boardworks Ltd 2003
When light changes direction as it moves from one medium to another we call this effect what?
A. Reflection
B. Refraction
C. Diffraction
D. Total internal reflection
© Boardworks Ltd 2003
What happens to the speed of light as it moves from air into glass?
A. Decreases
B. Increases
C. No effect
D. Decreases and increases
© Boardworks Ltd 2003
If a ray of light moves from air to glass parallel to the normal what happens?
A. No change in direction
B. It bends away from the normal
C. It bends towards the normal
D. It stops
© Boardworks Ltd 2003
If light travelling through a medium has a speed of 150 000 000 m/s. What is the refractive index of the medium?
A. 2.6
B. 0.5
C. 2.0
D. 1.5
© Boardworks Ltd 2003
Can you……
Explain what refraction is? Describe what happens to a light ray if it enters a
medium of different density at an angle? Describe what happens to a light ray if it enters a
medium of different density along the normal? Describe examples of refraction? Draw ray diagrams depicting the refraction of light? Calculate the refractive index for a medium?