Cette leçon contient 31 diapositives, avec quiz interactifs, diapositives de texte et 1 vidéo.
Éléments de cette leçon
Light Review
Slide 1 - Diapositive
what is refraction?
Slide 2 - Question ouverte
Incident ray
Reflected ray
Angle of incidence
Angle of reflection
Law of Reflection
Angle of incidence = Angle of reflection
Slide 3 - Diapositive
i
Angle of incidence
Incident ray
Refracted ray
Normal
Angle of incidence
Angle of refraction
r
Angle of refraction
Snell's Law
n = sin i / sin r
Slide 4 - Diapositive
But why does the light change direction when it goes into the glass block?
And then again when it leaves?
Slide 5 - Diapositive
Slide 6 - Vidéo
If the ray of light hits the block at an angle, the side that hits first is slowed down and so the ray starts to bend towards the normal. It has been refracted.
If the ray of light hits the block at an angle, the side that hits first is slowed down and so the ray starts to bend towards the normal. It has been refracted.
When it leaves the block, it speeds back up and so bends away from the normal.
Slide 7 - Diapositive
Refractive Index
Refractive index measures the effect a medium has on light.
The greater the refractive index, the greater the change in speed and direction.
The refractive index is always a value greater than, or equal to, 1.
The refractive indices of a vacuum and air are 1.
Slide 8 - Diapositive
Absolute Refractive Indices
Material
Refractive Index, n
glass
1.5
perspex
1.47
water
1.33
diamond
2.4
Slide 9 - Diapositive
Refractive Index
We calculate refractive index using Snell's Law:
where n = refractive index
i = angle of incidence
r = angle of refraction
Slide 10 - Diapositive
Calculating n
Use the information in the diagram to calculate the refractive index of paraffin wax.
Solution
n = sin i / sin r = sin(34) / sin(23)
n = 1.43
Slide 11 - Diapositive
Calculating an angle
Use the information in the diagram to calculate angle X.
Solution
n = sin i / sin r
We want r, so rearrange:
sin r = sin i / n = sin(20)/1.47
r = sin^-1(0.23) = 13.5 degrees
Slide 12 - Diapositive
A ray of red light is incident on one side of a glass prism in air. The angle of incidence is 53° and the angle of refraction in the glass is 30°. Calculate the refractive index. Take a picture of your workings and answer then upload it to this question.
Slide 13 - Question ouverte
Solution taken from a mark scheme
Slide 14 - Diapositive
The diagram shows the wavefronts and the direction of travel of light in air. The light travels more slowly in the transparent solid. The refractive index of the transparent solid is 1.3. The light is incident on the surface of the solid at an angle of incidence of 67°. Calculate the angle of refraction of the light in the solid.
Slide 15 - Question ouverte
The background, through the glass of water, appears distorted which means changed to be _______
A
clearer
B
less clear
C
transparent
Slide 16 - Quiz
The background through the glass of water appears distorted because of ____________.
A
reflection
B
refraction
Slide 17 - Quiz
The light ___________when it passes from air into glass or water.
A
slows down
B
speeds up
C
remain constant
Slide 18 - Quiz
The material that light passes through is called a __________.
A
medium
B
opaque
C
ray
Slide 19 - Quiz
Light passing from one medium to another causes it to change ___________.
A
direction
B
force
C
distance
D
energy
Slide 20 - Quiz
Which is NOT an example of a medium?
A
air
B
glass
C
water
D
wood
Slide 21 - Quiz
You will remember that light travels 'very fast'. The speed of light in air is __________ kilometres per second.
A
30
B
30 000
C
300 000
D
300 000 000
Slide 22 - Quiz
When light passes from air into water or glass, the light travels ________.
A
slower
B
faster
C
at the same speed
D
at 0 m/s
Slide 23 - Quiz
The light passing from air into glass or water is bent _________ the normal.
A
away
B
under
C
across
D
towards
Slide 24 - Quiz
When light passes from air into glass or water, the angle of incidence is ________ than the angle of refraction.
A
lesser
B
the same
C
greater
D
more constant
Slide 25 - Quiz
Both of incident and refracted angles are measured from the __________.
A
normal
B
boundary
C
air
D
water
Slide 26 - Quiz
The light _________ when it passes from glass or water into air.
A
slows down
B
speeds up
C
remains the same
D
disappears
Slide 27 - Quiz
We say that the light passing from glass or water into air is bent _______ from the normal.
A
towards
B
across
C
away
D
the same
Slide 28 - Quiz
When light passes from glass or water into air, the angle of incidence is ________ than the angle of refraction.
A
lesser
B
the same
C
greater
D
more constant
Slide 29 - Quiz
The change of speed can cause the light to change ___________.
A
its speed
B
its direction
C
distance
Slide 30 - Quiz
____________ of light is defined as the change in direction of light on passing from one medium to another because of change in speed.