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Light Waves

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Lowest frequencies of visible light are red. Highest frequencies are violet. The order is red, orange, yellow, green, blue, violet. Producing EM Waves ... – PowerPoint PPT presentation

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Title: Light Waves


1
Light Waves
  • What we call light is a small portion of the
    electromagnetic spectrum
  • All the different colors are electromagnetic
    waves with different wave lengths
  • Wave speed frequency x wavelength
  • EM radiation is alternating electric and magnetic
    fields

2
Electromagnetic Waves
  • Remember our field induction rules
  • Changing magnetic/electric field induces
    electric/magnetic field

3
Electromagnetic Spectrum
  • Remember, the lower the frequency the longer the
    wavelength and vice versa
  • Wave speed of light is 300,000,000 m/s

4
Colors
  • Lowest frequencies of visible light are red
  • Highest frequencies are violet
  • The order is red, orange, yellow, green, blue,
    violet

5
Producing EM Waves
  • Need to vibrate charged particles
  • We shake electrons in an antenna to make radio
    and TV waves
  • We shake electrons in a magnetron to make
    microwaves
  • We shake electrons in atoms to make light (this
    is a bit of a simplification which we will
    correct later this semester

6
Light and Materials
  • Electromagnetic Waves carry energy
  • When light strikes a material, it vibrates the
    lightweight electrons

7
Light and Materials
8
Light and Materials
  • If the natural vibration frequency of the
    electrons is close to the frequency of the
    incoming light wave, the electron will be set
    into big vibrations (resonance)
  • It will absorb some energy from the EM wave and
    will vibrate with larger amplitude
  • It can smack into the electrons in neighboring
    atoms and vibrate them too

9
Light and Materials
  • This cuts down on the intensity of the light
  • If all the light is absorbed by shaking electrons
    we say the material is opaque
  • If the light frequency doesnt come close to the
    natural frequencies of the electrons, they shake
    a bit, but just re-emit the energy
  • Materials that cant hold the energy are
    transparent

10
Light and Materials
  • There is a delay in transparent materials between
    the time the electrons start shaking and then
    re-emit the energy
  • This means that the light travels more slowly in
    these materials!!!
  • We will use this fact later to do interesting
    things with lenses

11
Light and Materials
See why the light travels more slowly in a
transparent material than in a vacuum?
12
Light and Materials
  • Infrared EM waves shake entire atoms or molecules
    in materials
  • Microwave EM waves effect the rotation of atoms
    about each other


Remember our discussion of water and how it has a
positive end by the hydrogen atoms and a negative
end by the oxygen
-
13
Light and Materials
  • Things that are opaque absorb the energy carried
    by the light wave
  • This means that they heat up
  • Metals are opaque and shiny
  • The free electrons close to the surface shake and
    re-emit the energy back out of the material
  • They are reflectors!!!

14
Light and Air
  • Our atmosphere is transparent to visible light,
    some ultraviolet light and some infrared light
  • The ozone layer absorbs a lot of ultraviolet
    light
  • The ozone molecule is O3 and breaks into a
    regular oxygen molecule O2 and an oxygen atom

15
Colors
  • Colored objects are a result of selective
    reflection and absorption of light
  • Sunlight is a mixture of colors
  • We call this mixture white light
  • When white light strikes a red object, the red
    frequencies are reflected and the other
    frequencies are absorbed

16
Sunlight
17
Colors
  • White objects reflect all frequencies
  • Black objects absorb all frequencies
  • Objects can only reflect the colors of light that
    shine on them
  • If you shine blue light on a red object it will
    look black

18
Colors
  • We can also consider shining light through
    semi-transparent objects
  • Filters used on the lights in a theater are
    materials that absorb some frequencies and let
    other frequencies pass through
  • Red filters transmit red light through the
    material while other frequencies are absorbed

19
Mixing Colors
  • Our eyes and brains are very complicated color
    processing sensors and computers
  • See the discussion on page 289 in the text
  • Artists have learned how to mix colors to make
    pleasing combinations and to create a huge array
    of different colors
  • All based on what the sensors in our eyes respond
    to

20
Visual Response
21
Visual Response
Red Blue Magenta Red Green Yellow Blue
Green Cyan
The way your computer screen makes colors. And
your TV set does the same thing.
22
Visual Response
Red Blue Magenta Red Green Yellow Blue
Green Cyan
Magenta Green White Cyan Red White Yellow
Blue White
23
Selective Scattering
  • This is why the sky is blue!
  • The higher frequencies are scattered more by the
    molecules in the atmosphere
  • Reds and oranges just pass through, so the sky
    appears blue

24
Selective Scattering
Sunsets are red!
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