Color: Difference between revisions

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Claimed by Jeremy Gura
<i>Claimed by Jeremy Gura</i>


Color is an extensive physical property of matter, meaning that  
Color is an intensive physical property of matter, meaning that it is only dependant on the type of matter present.


==The Main Idea==
==The Main Idea==


Color is an extensive physical property of matter, in that it can be measured differently by two viewers of the same object. This can also be seen in if a large amount of matter is present as opposed to a small amount of the same matter, the color viewed by the same viewer may be altered. The physical color seen and interpreted by a viewer is subject to the brain and the eyes of the individual. The object itself absorbs a certain amount of light and reflects the rest. The wavelength of light that is reflected off the surface of the object is interpreted in the eye as a specific color.
Color is an intensive physical property of matter, in that it cannot be measured differently by two viewers of the same object. This can also be seen in if a large amount of matter is present as opposed to a small amount of the same matter, the color viewed by the same viewer is the same. The physical color seen and interpreted by a viewer is subject to the brain and the eyes of the individual. The object itself absorbs a certain amount of light and reflects the rest. The wavelength of light that is reflected off the surface of the object is interpreted in the eye as a specific color.


===A Mathematical Model===
===A Mathematical Model===
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Each color has a spectrum of wavelengths of light associated with it. The range of colors we are conditioned to seeing regularly are in the wavelength range of 400-650nm. Matter can technically reflect wavelengths above and below this, they can just not be seen with the naked eye. These wavelenghts for colors are listed below:
Each color has a spectrum of wavelengths of light associated with it. The range of colors we are conditioned to seeing regularly are in the wavelength range of 400-650nm. Matter can technically reflect wavelengths above and below this, they can just not be seen with the naked eye. These wavelenghts for colors are listed below:


A car takes 3 hours to make a 230-mile trip from Point A to Point B.  
[[File:Color Spectrum.jpg|thumb|alt=Example|Color Spectrum]]
 


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Violet - 400nm
==History==
Indigo - 445nm
 
Blue - 475nm
The tri-color hypothesis was first developed in 1801 by Thomas Young, as any color could be created with three different colored lights, which was confirmed by James Clerk Maxwell in 1865. In 1931, an worldwide organization of scientists known as the Commission Internationale de L'éclairage (CIE) mapped out the space of observable colors as wavelengths and assigned a set of numbers to each color, usually in sets of three, which is still in use today for use in coding.
Green - 510nm
 
Yellow - 570nm
==References==
Orange - 590 nm
 
Red - 650 nm
1. <i>Wavelength_Figure</i>. Digital image. <i>Larc.NASA.gov</i>. N.p., n.d. Web. 29 Nov. 2015.
2. "Color." Wikipedia.com N.p., n.d. Web. 4 Dec. 2015.


===A Computational Model===
==External links==


How do we visualize or predict using this topic. Consider embedding some vpython code here [https://trinket.io/glowscript/31d0f9ad9e Teach hands-on with GlowScript]
[https://www.boundless.com/chemistry/textbooks/boundless-chemistry-textbook/introduction-to-chemistry-1/physical-and-chemical-properties-of-matter-28/physical-and-chemical-properties-of-matter-181-1817/ Physical Properties of Matter]


==Examples==
[http://study.com/academy/lesson/physical-property-of-matter-definition-examples-quiz.html Properties of Matter Examples]


Be sure to show all steps in your solution and include diagrams whenever possible


===Simple===
[[Category:Properties of Matter]]
===Middling===
===Difficult===

Latest revision as of 01:20, 4 December 2015

Claimed by Jeremy Gura

Color is an intensive physical property of matter, meaning that it is only dependant on the type of matter present.

The Main Idea

Color is an intensive physical property of matter, in that it cannot be measured differently by two viewers of the same object. This can also be seen in if a large amount of matter is present as opposed to a small amount of the same matter, the color viewed by the same viewer is the same. The physical color seen and interpreted by a viewer is subject to the brain and the eyes of the individual. The object itself absorbs a certain amount of light and reflects the rest. The wavelength of light that is reflected off the surface of the object is interpreted in the eye as a specific color.

A Mathematical Model

Each color has a spectrum of wavelengths of light associated with it. The range of colors we are conditioned to seeing regularly are in the wavelength range of 400-650nm. Matter can technically reflect wavelengths above and below this, they can just not be seen with the naked eye. These wavelenghts for colors are listed below:

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Color Spectrum


Color Wavelength (nm)
Violet 400
Indigo 445
Blue 475
Green 510
Yellow 570
Orange 590
Red 650


History

The tri-color hypothesis was first developed in 1801 by Thomas Young, as any color could be created with three different colored lights, which was confirmed by James Clerk Maxwell in 1865. In 1931, an worldwide organization of scientists known as the Commission Internationale de L'éclairage (CIE) mapped out the space of observable colors as wavelengths and assigned a set of numbers to each color, usually in sets of three, which is still in use today for use in coding.

References

1. Wavelength_Figure. Digital image. Larc.NASA.gov. N.p., n.d. Web. 29 Nov. 2015. 2. "Color." Wikipedia.com N.p., n.d. Web. 4 Dec. 2015.

External links

Physical Properties of Matter

Properties of Matter Examples