Electromagnetic Radiation. Electromagnetic Waves Changing electric and magnetic fields can transmit energy across empty space Energy produced is electromagnetic.

Published byRonald Haynes Modified over 9 years ago

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Presentation on theme: "Electromagnetic Radiation. Electromagnetic Waves Changing electric and magnetic fields can transmit energy across empty space Energy produced is electromagnetic."— Presentation transcript:

1 Electromagnetic Radiation

2 Electromagnetic Waves Changing electric and magnetic fields can transmit energy across empty space Energy produced is electromagnetic radiation

3 Speed, Wavelength, and Frequency of EM Radiation c (speed of light) = 3.00 x 10 8 m/s c = λf as wavelength increases, frequency decreases and vice versa

4 The Electromagnetic Spectrum Range of wavelengths Logarithmic scale because it spans such a large range of values

5 Radio Waves Radio, television, cell phones Transducers—convert sound into electrical signals FM—frequency modulated (shorter) AM—amplitude modulated

6 Microwaves Telecommunication—satellites Microwave oven

7 Infrared Radiation Thermal radiation –Electric heater –Infrared thermometer –Remote control

8 Visible Light Eyes detect these waves ROYGBIV White light—mixture of all of the colors of the visible spectrum See color when that wavelength is reflected

9 Ultraviolet Radiation Sunlight Ozone molecules absorb most Water purifiers Sterilizing instruments

10 X Rays High energy Medicine Airport security

11 Gamma Rays Produced by nuclear reactions and by radioactive nuclei Medical uses

12 The Photoelectric Effect Photons—bundles of energy Planck’s constant –Energy of a photon is proportional to the frequency of the electromagnetic radiation. Planck’s constant is that proportionality. –h = 6.626176 x 10 -34 J s –E photon = h c/λ

13 The Photoelectric Effect Work function –The energy required to “break” an electron out of a metallic surface—Φ Hf = Φ + KE e –Photon energy (speed of light/wavelength) = work function + kinetic energy

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