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Electromagnetic Spectrum

NATURE OF LIGHT. Electromagnetic Spectrum. Electromagnetic Spectrum. The electromagnetic spectrum comprise of the following: 1. Radio waves Electromagnetic radiation with wavelengths that range from hundreds of meters to less than a centimeter. Familiar due to their use in communications.

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Electromagnetic Spectrum

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  1. NATURE OF LIGHT Electromagnetic Spectrum

  2. Electromagnetic Spectrum • The electromagnetic spectrum comprise of the following: • 1. Radio waves • Electromagnetic radiation with wavelengths that range from hundreds of meters to less than a centimeter. • Familiar due to their use in communications. • AM Radio band – 540 to 1, 650 kHz. • FM band – 88 – 108 MHz • Also includes shortwave radio transmissions and television signals.

  3. Electromagnetic Spectrum • 2. Microwaves • Electromagnetic that range from approximately 1 ft (30 cm) in length to the thickness of a paper. • Microwave oven heat food by causing water molecule to rotate at a frequency of 2.45 GHz. • In astronomy radiation of a wavelength of 8.2 inch (21 cm) has been used to map neutral hydrogen (H) throughout the galaxy. • RADAR is also included in this region.

  4. Electromagnetic Spectrum • 3. Infrared • Electromagnetic radiation that comprises the region of the electromagnetic spectrum where the wavelength of light is measured from 1 mm to 400 nanometer. • Discernible to humans as heat. • Discovered by W. Herschel by dispersing sunlight through a prism and measuring the temperature increase just beyond the red end of the spectrum.

  5. Electromagnetic Spectrum • 4. Visible light • Electromagnetic radiation in the range visible to the human eye between approximately 4, 000 and 7, 700 angstroms. • Wavelengths to which the human eye is sensitive. • Easily pass Earth’s atmosphere. • Further broken down into the familiar color of a rainbow. (MR. ROY G. BIV)

  6. Electromagnetic Spectrum • 5. Ultraviolet • Electromagnetic radiation ranging in wavelength from 400 to 10 billionth of a meter. • Has many important effects on Earth. • The ozone absorbs much of the UV radiation from the sun. • UV that reaches the Earth’s surface can cause suntans and sunburns.

  7. Electromagnetic Spectrum • 6. X-rays • Electromagnetic radiation that are highly energetic with wavelengths ranging from about 10 billionths of a meter to 10 trillionths of a meter. • Useful in medical and industrial radiography. • Can pass through the body. • Allows doctors to study bones and teeth. • Do not pass Earth’s atmosphere so astronomers must place X-ray telescopes in space.

  8. Electromagnetic Spectrum • 7. Gamma rays • Electromagnetic radiation that are most energetic and are comprised of light with wavelengths of less than about ten trillionths of a meter and include waves with wavelengths smaller than the radius of an atomic nucleus (1015m). • Produced by nuclear processes during radioactive decay or in nuclear reactions in space.

  9. Spectroscopy • The study of the spectra especially to determine the chemical composition of substances and the physical properties of molecules, ions and atoms. • Study of the properties of light that depend on wavelength. • Newton’s use of prism dispersing the visible light into the rainbow of colors initiated the study of spectroscopy.

  10. Spectroscopy • Spectroscope • The instrument for studying spectra; an instrument for dispersing light, usually light in the visible range, into a spectrum in order to measure it.

  11. Types of Spectrum • 1. Continuous Spectrum • 2. Dark-line Spectrum • 3. Bright-line Spectrum

  12. Types of Spectrum • 1. Continuous spectrum • Is produced by an incandescent solid, liquid or gas under high pressure. • Consists of an unfiltered band of color. • E.g. Common light bulb

  13. Types of Spectrum • 2. Dark-line spectrum (Absorption spectrum) • Is produced when “white” light is passed through the a comparatively cool gas under low pressure. • Gas absorbs selected wavelengths of light, so the spectrum that is produced appears as a continuous spectrum but with a series of darklines.

  14. Types of Spectrum • 3. Bright-line spectrum (emission spectrum) • Is produced by a hot (incandescent) gas under low pressure. • It is a series of bright lines of particular wavelengths depending on the gas that produces them. • These bright lines appear in the exact location as the dark lines that are produced by this gas in a dark-line spectrum (absorption).

  15. Spectrum

  16. Spectrum • The spectrum coming from the sun contains thousands of dark lines. • Over 60 elements have been identified by matching those lines with those elements known on Earth.

  17. Spectrum • TWO FACTORS CONCERNING A RADIATING BODY IS IMPORTANT • 1. If the temperature of a radiating surface is directly proportional to the fourth power of its absolute temperature. • Stefan Boltzman Law • The energy radiated by a body is directly proportional to the fourth power of its absolute temperature. • Eg. Star – 2 times brighter – energy emitted will be 2 raise 4, it means the star released 16 times more energy.

  18. TWO FACTORS CONCERNING A RADIATING BODY • 2. As the temperature of an object increases, a larger proportion of its energy is radiated at shorter wavelengths. • E.g. • Heated metal rod • Hot - Red color – longer wavelength • Hotter – Blue color – shorter wavelength • Red stars – hot • Blue stars - hotter

  19. Sodium lines

  20. End of presentation

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