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I saw the light

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I saw the light!! Chapter 27. Light. I. Theories of light. A. ... F. Light has a dual nature. sometimes it acts like a particle. sometimes it acts like a wave ... – PowerPoint PPT presentation

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Title: I saw the light


1
I saw the light!!
  • Chapter 27
  • Light

2
I. Theories of light
  • A. Ancient Greeks
  • Light travels from our eyes and bounces back
  • B. Newton and others
  • light was a stream of particles that go from a
    light source into our eyes
  • Proof light moves in straight lines, reflection
  • Demo with ball, laser, flashlight

3
I. Theories of light
  • C. In 1800s Thomas Young showed light acting like
    a wave
  • Spreads out like a wave
  • Light shows interference behavior

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  • D. Through 1800s there was a debate between
    whether light was made of particles or waves
  • E. Einstein
  • light consists of massless bundles of
    electromagnetic energy called photons
  • Photoelectric effect ex solar calculator

9
  • F. Light has a dual nature
  • sometimes it acts like a particle
  • sometimes it acts like a wave
  • How does it act like a wave?
  • How does it act like a particle?

10
II. Speed of light
  • A. Light is very very fast
  • Too fast to be measured over short distances by
    everyday devices
  • With sophisticated equipment it can be measured
    over long distances
  • B. Represented by the letter c

11
II. Speed of light
  • C. Discovered by Michelson in 1880
  • Used spinning mirrors and a mirror on a
    mountaintop
  • First American to win the Nobel Prize
  • 1907 for this discovery
  • Michelson experiment

12
  • D. 299,920 km/s
  • Round to 300,000 km/s
  • 3 x 108 m/s
  • 187,500 miles / sec
  • Astronauts in space shuttle go 18,000 miles /
    hour or 5 miles/sec
  • A beam of light could go around the earth 7.5
    times a sec!!

13
Concept Quiz
  • If a star 200 light years away from us blows up
    into a supernova today, when would we see it?
  • 1. Tonight
  • 2. 2 years
  • 3. 200 years
  • 4. not enough information

14
Concept Quiz
  • If something is one light year away, how many
    kilometers away is it?
  • We will do this one together.

15
  • E. Remember v ?f
  • Velocity stays at 3 x 108 m/s
  • If frequency goes up wavelength goes down and
    vice versa

16
III. Electromagnetic Waves
  • A. Light energy emitted by accelerating
    electric charges
  • electrons in atoms
  • B. Travels in electromagnetic waves
  • C. Visible light is a tiny part of the EM
    spectrum less than .1

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  • electromagnetic spectrum wavelengths
  • Stop here day one

19
IV. Light and Transparent Material
  • Brief atom review
  • Made of protons, neutrons and electrons
  • Always moving
  • Sound analogy

20
IV. Light and Transparent Material
  • A. Light
  • energy carried in an EM wave that is generated
    by vibrating electric charges
  • B. When light shines on matter electrons in the
    matter are forced to vibrate.

21
IV. Light and Transparent Material
  • A. Light
  • energy carried in an EM wave that is generated
    by vibrating electric charges
  • B. When light shines on matter electrons in the
    matter are forced to vibrate.
  • Vibrations are transferred

22
  • C. The natural vibration of electrons depends on
    how tightly they are held to the nucleus
  • Visualize the electrons in an atom as connected
    by imaginary springs

23
  • C. The natural vibration of electrons depends on
    how tightly they are held to the nucleus
  • Visualize the electrons in an atom as connected
    by imaginary springs
  • Different materials have different spring
    strength and respond more to outside vibrations
    at some frequencies than others

24
  • D. How material responds depends on
  • 1. the frequency of light
  • 2. natural frequency of electrons in material

25
  • E. Glass
  • 1. natural frequency in the ultra violet
  • 2. When UV light shines on glass resonance occurs
  • a. wave builds and get natural vibrations

26
  • 3. atom starts to vibrate more and more hitting
    other atoms and giving energy to those atoms in
    the form of heat

27
  • 3. atom starts to vibrate more and more hitting
    other atoms and giving energy to those atoms in
    the form of heat
  • 4. glass stops UV rays
  • 5. Instead of the energy going through the glass
    it gets turned into heat

28
  • F. When lower frequency light shines on glass
  • 1. electrons forced to vibrate at smaller
    amplitudes

29
  • F. When lower frequency light shines on glass
  • 1. electrons forced to vibrate at smaller
    amplitudes
  • 2. holds energy for less time
  • ?fewer collisions with neighbors
  • ? less energy transferred as heat

30
  • 3. Energy of vibrating electrons is reemitted as
    light
  • a. all visible light goes through glass
  • b. frequency of light hitting it is same as
    frequency of light leaving it
  • Color is the same leaving the glass as entering it

31
  • 4. Same frequency in as out but there is a time
    delay
  • Speed of light slower in the glass

32
V. Opaque Material
  • A. Most materials absorb light without reemission
    of it
  • No light passes through opaque
  • B. Light hits it but vibrations are turned into
    random kinetic energy warming thing up

33
  • C. When light hits a material it can do three
    things
  • 1. bounce off (reflect)
  • 2. be transmitted through the material
  • 3. be absorbed
  • Usually a combination of all three

34
VI. Shadows
  • A. Ray thin beam of light
  • A beam of light is a bundle of rays
  • B. Shadow is formed where light rays cant reach
  • When light shines on an object some of the rays
    may be stopped

35
  • C. Umbra total shadow
  • D. Penumbra partial shadow
  • Some of the light blocked, but other light fills
    in.
  • E. Eclipse examples

36
VII. Polarization
  • A. Polarized vibrations go back and forth in
    one direction
  • Up and down vertical polarization
  • Side to side horizontal polarization

37
  • B. electrons emit EM waves that are polarized
  • C. light sources have vibrating electrons in
    random directions so the light emitted is not
    polarized

38
  • D. When light shines on polarized filters the
    light gets polarized
  • It blocks the light that is not in the same
    direction

39
  • E. Light reflects off horizontal surfaces
    horizontally
  • Therefore sunglasses have a vertical axis
  • Skipping stone analogy
  • F. Used for 3D movies
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