Transcript Slide 1

Light passing from a medium in which it is ________
slow
faster
to one in which it is __________________
:
q2
fast
slow
refracted
reflected
q1
increase
Now _______________q
1:
q2
fast
slow
q1
less refracted
more reflected
q2 equals 900
Keep increasing q1 until_______________________.
critical
At that point, q1 is called the _________________angle,
qc.
q2 = 900
fast
slow
q1= qc
> qc
For any angle q1 ______:
fast
even less
refracted
even more
reflected
no
refracted
slow
q1> qc
all light is
reflected
Total Internal Reflection (TIR).
This is called________________________________________
 It can only occur when light passes into a medium
in which it is faster
____________________________
.
To find qc:
q2 = 900
n2 = fast
n1 = slow
Snell’s Law:
qc
n1sinq1 = n2sinq2
n1sinqc = n2sin900
If fast medium is air:
n1sinqc = 1·1
sinqc = 1/n1
qc = sin-1(1/n1)
Here are some typical critical angles for slow
media with air as the fast medium:
slow
medium
n1
1/n1
qc
water
1.33
0.752
490
Lucite
1.50
0.667
420
diamond
2.42
0.413
240
A beam of light enters Lucite:
no refracted
ray here
q1 > 420
Totally
internally
reflected
ray
Lucite with a ray at less than the critical angle:
incident ray
q1 < 420
refracted
ray here
internally
reflected
ray, but
not total
Of what use is TIR?
Fiber optics.
Why fiber optics instead of electrical wire?
attenuation
1. Less _______________________(dying
out) of signal…
“repeaters”
2. …means less ____________________are
needed
more info
3. Light has a high f  ___________________can
be sent
4. Each fiber can carry __________________because
>1 signal
> 1 frequency
_____________________
(color) can be sent on one fiber.
5. More signals per wire ____________________needed
less wires
interference
6. Light is immune to electrical __________________
environmental noise
from other fibers and_______________________________
explosive fumes
7. Can be used where _____________________are
present
Fiber Optics:
Manufacture:
1. Can be made of plastic or glass.
2. Glass has less attenuation,
so it is used for longer distances.
Uses:
1 transmitting information on cable
2. sensors for seismic, sonar and oil drilling
3. optical gyroscopes in planes and cars
4. illumination in medicine and decoration
Gyroscopes are used to stabilize
ships, airplanes, and satellites.
Toy:
On a ship:
Optical gyroscopes: Rotation causes the light going
around in one direction to have a shorter path.
Using mirrors:
Using fiber optics:
The red and blue dots
represent photons going
around a fiber optic path
in different directions.
Other uses of TIR…
binoculars:
periscopes:
prisms
mirrors
Ex: Underwater, you can only see a 970 “cone” of light
above you that represents the entire sky.
970
All light incident on the surface from below within
the blue area is totally reflected back into the water.
This is called "Snell's Window."
What keeps polar bears warm?
1. Their fur traps air.
2. The fur hairs act like fiber optic light pipes
that channel UV down to their skin.
3. Guess what color their skin is!
Warning….next photo shows …
In a vacuum, all frequencies (colors) of light travel
______________________.
This is ____________in
any
at the speed c
false
other media. Why?
slower
more
1. Higher f  ___________interactions
_____________
2.
natural
Higher f  closer to ________________f
of molecules
resonance
slower
 more ___________________________
Media in which the speed of a wave depends on its
dispersive
frequency
___________________
are said to be______________________.
wave
non-dispersive
medium
dispersive
media
sound
air
liquids and solids
light
vacuum
gases, liquids and solids
The Dark Side of the dispersion of light:
ROYGBIV
the visible
spectrum
Dispersion
separation
_______________________is
the ____________________of
a
frequencies
wave into its different _______________________.
incident
white light
Notice: The
rays leaving
the block are
parallel because
the block sides
are parallel.
glass block
blue
red
it changes v more
Blue bends ___________
because_________________________
more
higher
Blue has a ___________________
index of refraction.
a glass prism
Dispersion with _____________________:
red
incident
white light
blue
Note: the rays are
NOT parallel to the
incident ray because
the sides of the
glass prism are not
parallel
more
 Blue bends ______________
going in,
more
and it bends ________________
coming out.
Newton's Experiment:
white
light
board with hole
prism
2nd
prism
Before Newton: White light is “pure.”
The prism “stained” the white light.
After Newton: White light contains all colors.
Herschel’s (musician, astronomer, physicist) did
the following experiment: ~1800
temp. of
thermometer
B Y R
Why did the temp.
keep increasing
beyond red?
Rainbows are caused by dispersion.
1. incident white
2. some reflected
3. 1st refraction
4. dispersion
5. total internal
reflection
6. 2nd refraction
7. rainbow
For details about how the raindrop
does it, press here.
Why the arc?
What time of day is best for rainbows?
Sometimes, a double rainbow is seen:
Why is the secondary rainbow fainter???
A lens is basically _________________
two prisms separated by
a rectangular block:
lens
focus for
blue light
______
white
light
white
light
focus for
red light
______
Not all colors focus _____________________
at the same point .
This is called___________________________________
chromatic (color) aberration.
Newton did not think that lenses could be cured of
chromatic aberration. So he invented a telescope that
the Law of Reflection.
was based on__________________________
 All colors incident at the same spot will reflect
the same angle:
with _______________________
parabolic
mirror
white
light
focus
no aberration
All colors focus at the same spot __________________.
Later, the achromatic doublet was discovered: two
lenses with different indices of refraction that mostly
corrects for chromatic aberration.
The first achromatic
refracting lens was
invented in 1733 by
an English barrister
named Chester
Moore Hall although
it was independently
invented and
patented by John
Dollond.
What makes diamonds so beautiful?
Diamonds
are optically
“dense.”
high amount of dispersion  color
small critical angle  light trapped  fire