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     • The spreading of white light into its full spectrum of wavelengths is called dispersion. Rainbows are produced by a combination of refraction and reflection and involve the dispersion of sunlight into a continuous distribution of colors. Dispersion produces beautiful rainbows but also causes problems in certain optical systems.
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     Dispersion: The Rainbow and Prisms – ISP209: The Mystery of ...

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   Why is white light spread out according to wavelength in a rainbow?

   • What this implies is that white light is spread out according to wavelength in a rainbow. Dispersion is defined as the spreading of white light into its full spectrum of wavelengths. More technically, dispersion occurs whenever there is a process that changes the direction of light in a manner that depends on wavelength.

   11.5: Dispersion - Rainbows and Prisms - Physics LibreTexts

   phys.libretexts.org/Courses/Skyline/Survey_of_Physics/11:_Geometric_Optics/11.05:_Dispersion_-_Rainbows_and_Prisms

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   What is dispersion in a rainbow?

   • Dispersion is defined to be the spreading of white light into its full spectrum of wavelengths. Figure 25.5.2 25.5. 2: Even though rainbows are associated with seven colors, the rainbow is a continuous distribution of colors according to wavelengths. Refraction is responsible for dispersion in rainbows and many other situations.

   25.5: Dispersion - Rainbows and Prisms - Physics LibreTexts

   phys.libretexts.org/Bookshelves/College_Physics/College_Physics_1e_(OpenStax)/25:_Geometric_Optics/25.05:_Dispersion_-_Rainbows_and_Prisms

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   What causes a double rainbow?

   • (c) Double rainbow. (credit: Nicholas, Wikimedia Commons) Rainbows are produced by a combination of refraction and reflection. Dispersion may produce beautiful rainbows, but it can cause problems in optical systems. White light used to transmit messages in a fiber is dispersed, spreading out in time and eventually overlapping with other messages.

   Dispersion: The Rainbow and Prisms – Fundamentals of Heat, Light & S…

   pressbooks.nscc.ca/heatlightsound/chapter/25-5-dispersion-the-rainbow-and-prisms/

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   How does refraction affect a rainbow?

   • The light is refracted both as it enters and as it leaves the drop. Since the index of refraction of water varies with wavelength, the light is dispersed, and a rainbow is observed, as shown in Figure 5a. (There is no dispersion caused by reflection at the back surface, since the law of reflection does not depend on wavelength.)

   25.5: Dispersion - Rainbows and Prisms - Physics LibreTexts

   phys.libretexts.org/Bookshelves/College_Physics/College_Physics_1e_(OpenStax)/25:_Geometric_Optics/25.05:_Dispersion_-_Rainbows_and_Prisms

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   What is the sequence of colors in a rainbow?

   • The sequence of colors in rainbows is the same sequence as the colors plotted versus wavelength in Figure 2. What this implies is that white light is spread out according to wavelength in a rainbow. Dispersion is defined as the spreading of white light into its full spectrum of wavelengths.

   11.5: Dispersion - Rainbows and Prisms - Physics LibreTexts

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   Why is white light dispersed by a prism?

   • (b) White light is dispersed by the prism (shown exaggerated). Since the index of refraction varies with wavelength, the angles of refraction vary with wavelength. A sequence of red to violet is produced, because the index of refraction increases steadily with decreasing wavelength.

   11.5: Dispersion - Rainbows and Prisms - Physics LibreTexts

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3. phys.libretexts.org › Courses › Skyline11.5: Dispersion - Rainbows and Prisms - Physics LibreTexts

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   Aug 16, 2021 · White light used to transmit messages in a fiber is dispersed, spreading out in time and eventually overlapping with other messages. Since a laser produces a nearly pure wavelength, its light experiences little dispersion, an advantage over white light for transmission of information.

4. phys.libretexts.org › Bookshelves › College_Physics25.5: Dispersion - Rainbows and Prisms - Physics LibreTexts

   phys.libretexts.org › Bookshelves › College_Physics

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   White light used to transmit messages in a fiber is dispersed, spreading out in time and eventually overlapping with other messages. Since a laser produces a nearly pure wavelength, its light experiences little dispersion, an advantage over white light for transmission of information.

5. courses.lumenlearning.com › suny-physics › chapterDispersion: The Rainbow and Prisms | Physics - Lumen Learning

   courses.lumenlearning.com › suny-physics › chapter

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   dispersion: spreading of white light into its full spectrum of wavelengths. rainbow: dispersion of sunlight into a continuous distribution of colors according to wavelength, produced by the refraction and reflection of sunlight by water droplets in the sky.

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7. pressbooks.bccampus.ca › collegephysics › chapter25.5 Dispersion: The Rainbow and Prisms – College Physics ...

   pressbooks.bccampus.ca › collegephysics › chapter

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   White light used to transmit messages in a fiber is dispersed, spreading out in time and eventually overlapping with other messages. Since a laser produces a nearly pure wavelength, its light experiences little dispersion, an advantage over white light for transmission of information.

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8. openbooks.lib.msu.edu › collegephysics › chapterDispersion: The Rainbow and Prisms – ISP209: The Mystery of ...

   openbooks.lib.msu.edu › collegephysics › chapter

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   The spreading of white light into its full spectrum of wavelengths is called dispersion. Rainbows are produced by a combination of refraction and reflection and involve the dispersion of sunlight into a continuous distribution of colors.

9. openstax.org › books › college-physics-2e25.5 Dispersion: The Rainbow and Prisms - OpenStax

   openstax.org › books › college-physics-2e

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   White light used to transmit messages in a fiber is dispersed, spreading out in time and eventually overlapping with other messages. Since a laser produces a nearly pure wavelength, its light experiences little dispersion, an advantage over white light for transmission of information.

10. pressbooks.nscc.ca › heatlightsound › chapterDispersion: The Rainbow and Prisms – Fundamentals of Heat ...

    pressbooks.nscc.ca › heatlightsound › chapter

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    White light used to transmit messages in a fiber is dispersed, spreading out in time and eventually overlapping with other messages. Since a laser produces a nearly pure wavelength, its light experiences little dispersion, an advantage over white light for transmission of information.