Light

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Rays of light shine into a railway station

Light is a type of energy. It is a form of electromagnetic radiation of a wavelength which can be detected by the human eye.[1] It is a small part of the electromagnetic spectrum and radiation given off by stars like the sun. Animals can also see light. Light exists in tiny packets called photons. It shows properties of both waves and particles. The study of light, known as optics, is an important research area in modern physics.

Light is electromagnetic radiation that is in the form of a wave. Each wave has a wavelength or frequency. The human eye sees each frequency as a different color. Rainbows show the entire spectrum of visible light. The separate colors, moving in from the outer edges, are usually listed as red, orange, yellow, green, blue, and violet. Other colors can be seen only with special cameras or instruments: outside of red is infrared, and inside of violet is ultraviolet.

The other main properties of light are intensity, polarization, phase and orbital angular momentum.

In physics, the term light sometimes refers to electromagnetic radiation of any wavelength, whether visible or not.[2][3] This article is about visible light. Read the electromagnetic radiation article for the general concept.

About light[change | change source]

In a vacuum (where there is nothing; so, when not slowed down by other particles), light moves at the speed of light; which is 299,792,458 meters,[4] or about 186.282 miles, per second. This means it takes about 8 minutes for light to reach Earth from the Sun.[5][6] In glass it travels at about two-thirds as fast.

Light moves in a straight line, creating shadows when the path of light is blocked. More solid things will have a darker shadow, things that are more clear have a lighter shadow, and transparent things will have none or very little shadow. Light can pass through transparent things the most easily. Our eyes react to light; when we see something we see the light it reflects, or the light it emits. For example, a lamp gives off light, and everything else in the same room as the lamp reflects its light.

Every color of light has a different wavelength. The shorter the wavelength, the more energy the light has. The speed at which light moves does not depend on its energy. Going through partly clear objects can slow light down by a very small amount.

White light is made up of many different colors of light added together. When white light shines through a prism, it splits up into different colors, becoming a spectrum. The spectrum contains all of the wavelengths of light that we can see. Red light has the longest wavelength, and violet (purple) light has the shortest.

Light with a wavelength shorter than violet is called ultraviolet light. X-rays and Gamma rays are also forms of light with even shorter wavelengths than ultraviolet. Light with a wavelength longer than red is called infrared light. Radio waves are a form of electromagnetic radiation with a wavelength even longer than infrared light. The microwaves that are used to heat food in a microwave oven are also a form of electromagnetic radiation . Our eyes cannot see those kinds of energy, but there are some cameras that can see them. The various forms of light, both visible and invisible are the electromagnetic spectrum.

When light is refracted in raindrops, a rainbow is made. The raindrop acts like a prism and refracts the light until we can see the colors of the spectrum.

Color[change | change source]

Rainbow in Budapest shows the colors of the visible spectrum

Light and color are forms of analog information. However, electronic cameras and computer displays work with digital information. So, electronic cameras or document scanners make a digital version of a color image by separating out the full color image into separate red, green, and blue images. Later, a digital display uses pixels of just those three colors. Computer screens use only these three colors in different brightness levels. The brain combines them to see all of the other colors in the image.

People think of objects as having color. Scientist explain this because the molecules that make up the object absorb certain light waves, leaving the other light waves to bounce off. The human eye sees the wave lengths of all of the light that was not absorbed, and the combination of those leaves the brain with the impression of a color.

References[change | change source]

  1. International Commission on Illumination 1987. International Lighting Vocabulary. Number 17.4. CIE, 4th edition. ISBN 978-3-900734-07-7.
    By the International Lighting Vocabulary, the definition of light is: “Any radiation capable of causing a visual sensation directly.”
  2. Gregory Hallock Smith (2006), Camera lenses: from box camera to digital, SPIE Press, p. 4, ISBN 9780819460936 , http://books.google.com/?id=6mb0C0cFCEYC&pg=PA4
  3. Narinder Kumar (2008), Comprehensive Physics XII, Laxmi Publications, p. 1416, ISBN 9788170085928 , http://books.google.com/?id=IryMtwHHngIC&pg=PA1416#v=onepage&q=
  4. Cox, Brian; Cohen, Andrew (2011). Wonders of the Universe. HarperCollins. p. 43. ISBN 9780007395828 .
  5. "Seeing in the Dark . Astronomy Topics . Light as a Cosmic Time Machine". pbs.org. http://www.pbs.org/seeinginthedark/astronomy-topics/light-as-a-cosmic-time-machine.html. Retrieved 13 August 2010.
  6. "Cosmic Distance Scales - The Solar System". heasarc.gsfc.nasa.gov. http://heasarc.gsfc.nasa.gov/docs/cosmic/solar_system_info.html. Retrieved 13 August 2010.

Other websites[change | change source]