the electromagnetic spectrum
TRANSCRIPT
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The Electromagnetic Spectrumhttp://www.youtube.com/watch?v=bjOGNVH3D4Y
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Learning Outcomes• State Typical values for the wavelengths of different
regions of the electromagnetic spectrum.• State that all electromagnetic waves travel at the same
speed in a vacuum• Describe differences and similarities between different
regions of the electromagnetic spectrum• Describe some uses of different parts of the
electromagnetic spectrum.• Describe the characteristics and dangers of UV-a, UV-B
and UV-C radiation
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Why Electromagnetic?
http://www.phys.hawaii.edu/~teb/java/ntnujava/emWave/emWave.html
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What links them all?
• They can all travel through a vacuum• They all possess both an Electric and Magnetic
wave interlocked and at right angles to each other
• They all travel at the speed of light in free space (299 792 458 ms-1 ……3.0 x 108 ms-1)
• They are all transverse waves
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So why are there so many different types?• Electromagnetic waves of different types have
different characteristic wavelengths and therefore frequencies.
• The range of wavelengths in the electromagnetic spectrum range from 10-16m to 104m
• What is the frequency range of the electromagnetic spectrum?
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Different “regions” (ranges of wavelengths)
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Gamma rays
• Wavelengths: 10-16 – 10-9 m• Frequency range: 3 x 10 24 – 3 x 1017 Hz• Produced by: Nuclear decay or nuclear
accelerator• Detected by: Photographic film, geiger tube• Uses: Diagnoses and cancer treatment
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X-Rays
• Wavelengths: 10-12 – 10-7 m• Frequency range: 3 x 10 20 – 3 x 1015 Hz• Produced by: Bombarding metals with high-
energy electrons• Detected by: Photographic film, flourescence• Uses: CT scans, X-ray photography, grystal
structure analysis
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Ultraviolet radiation
• Wavelengths: 10-9 – 3.7 x 10-7 m• Frequency range: 3 x 10 17 – 8.0 x 1014 Hz• Produced by: High temperature solids and gases• Detected by: Photographic film, phosphors,
sunburn• Uses: disco lights, tanning, counterfeit
detection, detergents.
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Types of UV
• UV-A: Wavelength 315 – 400nm; causes tanning when skin is exposed to the Sun (99% of UV light)
• UV-B: Wavelength 280 – 315nm; causes damage such as sunburn and skin cancer
• UV-C: Wavelength 100 – 280nm; is filtered out by the atmosphere and does not reach the surface of the Earth.
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Visible Light
• Wavelengths: 3.7 x 10-7 – 7.4 x 10-7 m• Frequency range: 8.0 x 10 14 – 4.0 x 1014 Hz• Produced by: high temperature solids and
gases, lasers• Detected by: Photographic film, retina of the
eye• Uses: Sight, communication
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Infrared radiation
• Wavelengths: 7.4 x 10-7 – 10-3 m• Frequency range: 4.0 x 10 14 – 3 x 1011 Hz• Produced by: Oscillation of molecules, from all
objects at temperatures above absolute zero• Detected by: Photographic film, thermopile,
heating of skin• Uses:
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Microwaves
• Wavelengths: 10-4 – 10-1 m• Frequency range: 3 x 1012 – 3 x 109 Hz• Produced by: magnetron, klystron oscillators,
using oscillators to set up oscillations in a cavity• Detected by: heating effect, electrical circuits• Uses: radar, mobile phones, microwave ovens,
satellites navigation
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Radio waves
• Wavelengths: 10-1 – 104 m• Frequency range: 3 x 109 – 3 x 104 Hz• Produced by: electrons oscillated by electric
fields in aerials• Detected by: resonance in electronic circuits• Uses: television, radio, telecommunications
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Think of one innovative use for a region of the electromagnetic spectrum to share with the class.