GAMMA RAYS: Ξ» < 0.01 nm; highest frequency and energy
VISIBLE SPECTRUM (Roy G Biv):
Red β Orange β Yellow β Green β Blue β Indigo β Violet
Red has longest wavelength / lowest frequency in visible range.
Violet has shortest wavelength / highest frequency in visible range.
Sources and Properties
RADIO WAVES: produced by oscillating electrical circuits in transmitters.
MICROWAVES: produced by electronic devices; also by oscillating electrons.
INFRARED: emitted by all objects with temperature above absolute zero β thermal radiation.
VISIBLE LIGHT: produced by hot objects (incandescent), LEDs, fluorescent lamps.
ULTRAVIOLET: produced by very hot objects (the Sun), UV lamps.
X-RAYS: produced by decelerating high-energy electrons hitting a metal target.
GAMMA RAYS: emitted from unstable atomic nuclei during radioactive decay.
All are produced by changes in energy levels of electrons OR by oscillating charges.
All travel at 3 Γ 10βΈ m/s in vacuum β but SLOWER in other materials.
Light slows down in glass β this causes refraction.
β οΈ Common Mistake
All EM waves travel at the SAME speed in vacuum (3 Γ 10βΈ m/s) β they differ only in wavelength and frequency. Higher frequency = shorter wavelength = more energy per photon. Gamma rays are NOT the same as X-rays β they come from different sources (nucleus vs electron deceleration).
π Variables
cSpeed of EM waves in vacuum (c) is measured in m/s (3 Γ 10βΈ m/s)
Ξ»Wavelength (Ξ») is measured in metres (m)
fFrequency (f) is measured in hertz (Hz)
π Key Equations
c = f Γ Ξ» (for EM waves in vacuum, c = 3 Γ 10βΈ m/s)
π Key Note
EM spectrum (longβshort Ξ»): radio, microwave, infrared, visible, UV, X-ray, gamma. All travel at 3Γ10βΈ m/s in vacuum. All transverse. Higher frequency = shorter Ξ» = more energy. Visible: red (longest) to violet (shortest). Gamma from nucleus; X-rays from electron deceleration.
π― Matching Activity β EM Spectrum Order
Match each EM wave type to its wavelength range or key property. β drag the symbols on the right to match the component names on the left.
Radio waves
Drop here
Microwaves
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Infrared
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Visible light
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Gamma rays
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Emitted by all warm objects β detected as heat; used in night vision and remote controls
Longest wavelength β used for communication, TV and radio broadcasts
Shortest wavelength, highest energy β emitted by unstable atomic nuclei
Wavelength ~1 mm to 0.1 m β used in mobile phones, cooking, satellite communication
400 nm (violet) to 700 nm (red) β only part of EM spectrum detected by human eyes
π― Test Yourself
Question 1 of 2
1. Which EM wave has the highest frequency?
2. All electromagnetic waves in a vacuum have the same what?
β How Well Do You Understand This Topic?
Be honest with yourself β this helps you know what to revise!
Don't get itGetting thereNailed it!
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