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- Today: Review exam 1
- Chapter 5
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- Properties of light are fundamental
- Almost everything we know about the universe outside our solar system
comes from interpreting the light from distant objects.
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- Something that “radiates”, or spreads out in
“rays”
- High speed particles (eg. high speed neutrons ejected from a
disintegrating atomic nucleus)
- Electromagnetic radiation:
- Towards shorter “wavelength” and higher energy:
- Visible light, Ultraviolet light, X-Rays, Gamma-Rays
- Towards longer “wavelength” and lower energy:
- Visible light, Infrared radiation, microwaves, radio waves
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- Light has both wave and particle properties
- Travels like a wave
- Interacts with matter like a particle: “photon”
- Full explanation involves quantum mechanics
- For most cases we can just choose the right “model” from
the above two choices
- Photons, unlike particles in other kinds of “radiation,”
are particles of “pure energy”
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5
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- Changing electric fields generates magnetic fields
- Changing magnetic fields generates electric fields
- Can set up a cycle where one field causes the other:
- The E and B fields oscillate in strength, and the disturbance moves
forward.
- To describe the wave you need to specify
- Direction it is moving
- Strength of the fields (its intensity)
- Frequency or Wavelength of the oscillation (u and l are inversely related)
- Orientation of the electric E field: up or sideways (polarization)
- You do not need to specify its speed
- In a vacuum all lightwaves move at the same speed c = 3´108
m/s
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- Radio waves
- Microwaves
- Infrared
- Visible
- Ultra-violet
- X-Rays
- Gamma rays
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- Short wavelength Þ High
energy photons
- Long wavelength Þ Low energy photons
- Intensity µ
total energy (per area per second)
µ (# of photons
per area per second)
´
(energy per photon)
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- Modified example: Hailstorm
(with your car outside in it)
- Threshold for damage to car set by size of individual hailstones
- Below threshold hailstones cause no dents
- Above threshold they cause bigger dents
- Number of dents = number of hailstones bigger than threshold
- Very unlikely two small hailstones can hit exactly together to cause
dent
- Real life example:
Ultra-Violet light hitting your skin
- Threshold for chemical damage set by energy (wavelength) of photons
- Below threshold (long wavelengths) energy too weak to break bonds
- Above threshold (short wavelength) energy photons break apart DNA
- Number of molecules damaged = number of photons above threshold
- Very unlikely two photons can hit exactly together to cause damage
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- Inverse relationship:
Smaller l
means more energetic
- c = speed of light = 3.00 ´ 108 m/s
- h = Planck’s constant = 6.63 ´ 10-34 joules x s
- Note: Joule is a unit of
energy
1 Joule/second = 1 Watt
- Energy of a single photon of 0.5 mm visible light?
- Seems very small, but this is roughly the energy it takes to chemically
modify a single molecule.
- Photons from a 100 W lightbulb
(assuming all 100W goes into light?)
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- Properly curved lenses and mirrors can form “Images”
- All the light leaving one point on object gets
“reassembled” at one point on the image.
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- Large telescopes can collect more light
- Can detect fainter objects
- Have more light for specialized analysis.
- Large telescopes can form more detailed images
- Waves spread out as they go through an opening.
- The larger the opening, the less they spreads out.
- The longer the wavelength the more they spread out
- Angle of spread q
µ l/D where D is Diameter of
telescope
- Radio telescopes have to be much bigger than visible ones
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- Measure brightness of objects (photometry)
- Record images using electronic “CCD” detectors
- Split it into different wavelengths with “spectrometers”
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- “There is no dark side really. It’s all dark.” --
Pink Floyd
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- What is wrong with this picture?
- Front: Not all primary colors (eg, pink, magenta), also refraction
angles inconsistent
- Back: Spectrum is Convergent – I think done for art’s sake
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- Different phenomena produce different wavelength waves
- Ordinary stars: Visible
light
- Cool planets or dust clouds:
Infrared light
- Moving charged particles, cool molecules: Radio waves
- Very hot objects: X-Rays
and Gamma Rays
- Quasars: ALL wavelengths
- Only visible, some IR, and radio make it through atmosphere
- Need to observe from space for other wavelengths
- Going into space also lets you obtain more detailed images
- On Earth telescope size isn’t only limit on image resolution
- Temperature fluctuations in atmosphere cause “seeing”
(blurring)
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- Radio waves
- Microwaves
- Infrared
- Visible
- Ultra-violet
- X-Rays
- Gamma rays
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