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Understanding Electromagnetic Waves: Properties, Spectrum, and Uses

Explore the nature of electromagnetic waves, including their composition, wavelength and frequency, radiant energy, and the electromagnetic spectrum. Discover the applications of EM waves in telecommunications, radar, GPS, and more.

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Understanding Electromagnetic Waves: Properties, Spectrum, and Uses

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  1. Chapter 18 Electromagnetic Waves

  2. Ch 18.1 – Electromagnetic Waves • Electromagnetic Waves are produced by charged particles in motion 1. They can travel through empty space to transmit energy

  3. B. EM Waves are composed of 2 force fields – electric & magnetic 1. Force field – an area within which a force is exerted a) Ex: Earth’s gravity field – exerts a downward force on all objects and extends into space

  4. 2. Magnetic Field – exerts a force on other magnets causing them to line up in the direction of the magnetic field

  5. 3. Electric Field – field surrounding a charged particle that exerts a force on all other charged particles

  6. 4. A moving charged particle is surrounded by an electric and magnetic field 5. As the charged particle moves up and down it produces an electromagnetic wave Electric Field Magnetic Field

  7. C. EM Waves have wavelength and frequency 1. One complete vibration (up and down) of the charged particle generates one wavelength 2. The number of wavelengths that pass a point per second is the frequency

  8. D. Radiant Energy – energy carried by an electromagnetic wave 1. The amount of energy carried by an EM wave is determined by ` its frequency 2. The higher the frequency, the more energy the wave has

  9. E. EM Waves all travel at the speed of light – 300,000km/s in space (about 186,000 miles/second)

  10. Ch 18.2 – The EM Spectrum • EM Waves have a series of different frequencies and wavelengths called the EM spectrum 1. Since they all travel at the same speed radiant energy decreases as wavelength increases

  11. Electromagnetic Spectrum

  12. B. Radio Waves – have the lowest frequency and carry least energy 1. AM/FM radio and television signals are types of radio waves 2. They are sent and received by antennas

  13. Transmitting antenna – piece of metal in which electrons can vibrate to produce an EM wave • Receiving antenna – device that vibrates when in contact with radio waves, producing an electric current

  14. Radio Wave Transmissions

  15. C. Microwaves - have slightly higher frequencies than radio 1. Used for portable and cellular phones as well as to heat food

  16. D. Infrared Waves – heat waves; feel warm or hot 1. Infrared detectors sense objects that are warmer or colder than their environment 2. Some animals such as piranhas and some snakes can detect infrared to help find prey

  17. E. Visible Light – aka white light 1. Different colors are EM waves of different wavelengths 2. Red light has the longest wavelength, violet has the shortest

  18. F. Ultraviolet Radiation – frequencies high enough to damage cells 1. Too much exposure can cause sunburn or skin cancer 2. Since it can kill cells, they may be used to sterilize equipment

  19. 3. The ozone layer protects the surface by absorbing much of these rays

  20. G. X-rays –frequencies so high can go right through skin and muscles 1. Too much exposure can damage or kill cells 2. Useful in medical diagnosis with proper precautions

  21. H. Gamma Rays – EM waves with the highest frequency (strongest radiation) 1. Produced by nuclear decay 2. Can also be used to kill bacteria on equipment or in food

  22. 3. Can cause changes in DNA resulting in cancer or other abnormalities however can also be used to treat cancer tumors

  23. 4. Gamma ray bursts – extremely energetic explosions of gamma rays from distant galaxies Hubble Image Artist Interpretation

  24. Illustration of a gamma ray burst hitting a planet like Earth.

  25. Ch 18.3 – Uses of EM Waves A. The world has become connected by various forms of telecommunication which make use of EM waves

  26. B. Radio waves are the wave of choice for most telecommunications 1. The assigned frequency for a radio or TV station is its carrier wave

  27. 2. Amplitude modulation – amplitude of the carrier wave is changed to transmit information 3. Frequency modulation – frequency of the carrier wave is changed

  28. C. Telephones 1. Convert sound waves to electrical signals which then are turned into a radio or microwave 2. Receivers convert the radio/micro back to electrical signal then speaker converts it back to sound wave

  29. D. Communication Satellites – enable radio/microwave signals to be sent from one part of Earth to another

  30. D. Radar – uses radio waves to locate objects by measuring the time it takes for the wave to reach the object, reflect and return

  31. E. Global Positioning System – consists of satellites, ground stations and portable receiver units to locate objects on Earth

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