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Light and the Electromagnetic Spectrum

Light and the Electromagnetic Spectrum. Light Phenomenon. Isaac Newton (1642-1727) believed light consisted of particles By 1900 most scientists believed that light behaved as a wave. Light: What is it?. Light Energy: A special type of wave Atoms

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Light and the Electromagnetic Spectrum

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  1. Light and the Electromagnetic Spectrum

  2. Light Phenomenon • Isaac Newton (1642-1727) believed light consisted of particles • By 1900 most scientists believed that light behaved as a wave.

  3. Light: What is it? • Light Energy: A special type of wave • Atoms • As atoms absorb energy, electrons jump out to a higher energy level • Electrons release light when falling down to the lower energy level • Photons: bundles/packets of energy released when the electrons fall(they have no mass) • So, Light is a stream of photons

  4. The Electromagnetic Spectrum The electromagnetic spectrum represents the range of energy from low energy, low frequency radio waves with long wavelengths up to high energy, high frequency gamma waves with small wavelengths.

  5. Visible light is a small portion of this spectrum. This is the only part of this energy range that our eyes can detect. What we see is a rainbow of colors. RedOrangeYellowGreenBlueIndigoViolet ROY G BIV

  6. Frequency Ranges • Wavelengths • 104 101 1 10-2 10-5 10-6 10-8 10-10 10-12 • Frequencies (cycles per sec) 3 x 106 3 x 1010 3 x 1014 3 x 1016 3 x1018 3 x10 22

  7. FrequencyRanges ofVisibleLight Red light has a frequency of roughly 4.3 × 1014 Hz, and a wavelength of about 7.0 × 10­7 m (700nm). Violet light, at the other end of the visible range, has nearly double the frequency—7.5 × 1014 Hz—and (since the speed of light is the same in either case) just over half the wavelength— 4.0 × 10­7 m (400nm).

  8. Electromagnetic spectrum • Radio Waves—longest wavelength/lowest frequency • Infrared Rays—light rays w/longer wavelength than red light (ex: cooking, tv remote, etc.) • UV Rays—frequencies higher than visible light (ex: food processing, kill germs, helps w/vitamin D absorption)

  9. Electromagnetic spectrum • X-Rays • Shorter than UV rays • Uses: bones absorb x-rays; soft tissue does not • Lead absorbs X-rays Gamma Rays: highest frequency/shortest wavelength Uses: cancer treatment

  10. The radiation to which our eyes are most sensitive has a wavelength near the middle of this range, at about 5.5 x 10-7m (550 nm), in the yellow-green region of the spectrum.

  11. It is no coincidence that this wavelength falls within the range of wavelengths at which the Sun emits most of its electromagnetic energy—our eyes have evolved to take greatest advantage of the available light.

  12. The colors we see in objects are the colors that are reflected, all other colors are absorbed. A red t-shirt appears red because red is reflected to our eyes and the other colors are absorbed. • When all colors are being reflected we see white light (white isn’t really a color)

  13. When all wavelengths of light are being absorbed we see black (black also, isn’t really a color) • A false-color image is made when the satellite records data about brightness of the light waves reflecting off the Earth's surface.

  14. These brightnesses are represented by numerical values - and these values can then be color-coded. It is just like painting by number. • The next slide shows a true color vs. false color image of the planet Uranus. Satellite images can be gathered in true color (what our eyes would see) and false color (to make it look better)

  15. The true color image on left is how our eyes would see it. • The false color image is enhanced to bring out subtle details to make it easier to study Uranus’ cloud structure.

  16. Light: Refraction • Is bending of light due to a change in speed through an object (of light) • Index of Refraction-amount by which a material refracts light • Prisms-glass that bends light. Different frequencies are bent different amounts and light is broken out into different colors

  17. Light: Reflection • Bouncing back of light waves • Regular reflection-mirrors w/smooth surfaces scatter light very little/images are clear and exact • Diffuse reflection—reflected light is scattered due to an irregular surface

  18. Light: Diffraction • Bending of waves around the edge of a barrier. New waves are formed from the original. • Ex: Diffraction glasses

  19. Light and Its Uses: • Optical Instruments: • Lasers- • Stands for Light Amplification by Stimulated Emission of Radiation • Uses Coherent light-very powerful and intense • Holography • Fiber Optics • Communications, medicine, tv transmission, etc.

  20. Opaque: absorbs and reflects light-no light passes through it • Translucent: allows some light to pass through, but you cannot see clearly through it • Transparent—transmits almost all of the light that strikes them-can see clearly through it (picture/pg. 420)

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