Difference between revisions of "Bezold Effect" - New World Encyclopedia
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[[Category:Politics and social sciences]] | [[Category:Politics and social sciences]] | ||
[[Category:Psychology]] | [[Category:Psychology]] | ||
| − | + | [[Category:Illusion]] | |
| − | + | [[Image:Bezold Effect.svg|frame|right|Demonstration of the Bezold Effect. The red seems lighter combined with the white, and darker combined with the black.]] | |
| − | [[Image:Bezold Effect. | + | The '''Bezold Effect''', also referred to as the "assimilation effect," is an [[optical illusion]] where a [[color]]'s hue or value is affected by the color or colors surrounding it. |
| − | The '''Bezold Effect''', also referred to as the "assimilation effect" | + | {{toc}} |
| − | |||
==Discovery== | ==Discovery== | ||
| − | The Bezold effect was first discovered by a German professor of meteorology, [[Wilhelm von Bezold]] (1837-1907), who discovered that a color may appear different depending on its relation to adjacent colors. | + | The ''Bezold effect'' was first discovered by a German professor of [[meteorology]], [[Wilhelm von Bezold]] (1837-1907), who discovered that a [[color]] may appear different depending on its relation to adjacent colors. Bezold discovered that contrary to the already established finding of "simultaneous color contrast" in which a color takes on the complimentary hue and contrasting brightness of its surroundings, Bezold discovered that under certain circumstances a colored region will take on the same color as its surround.<ref name=fineman>Mark Fineman, ''The Nature of Visual Illusion'' (Dover Publications 1996 ISBN 0486291057)</ref> |
==Description== | ==Description== | ||
| − | When looking at a specific hue, it can appear to change in appearance depending on | + | When looking at a specific [[hue]], it can appear to change in appearance depending on the [[color]]s that surround it. For example, a yellow box surrounded by blue will look darker than a yellow box surrounded by red. Often, the surrounded color seems to take on a tint of the color that surrounds it; red boxes surrounded by blue will appear more bluish than those surrounded by white. The clearest demonstration is when two patches of identical color are surrounded by thin black and white borders respectively. The one surrounded by black appears darker than the one surrounded by white. The colored regions assimilate their border color; the opposite of the contrast effect often found with brightness, and also with hue. |
==Explanation== | ==Explanation== | ||
| − | The reasons behind the Bezold effect remain a neurological puzzle.<ref>[http://www.blelb.ch/english/blelbspots/spot01/expspot01_en.htm "Experiments with Spot 01"] The Visual Perception Lab. Retrieved | + | The reasons behind the Bezold effect remain a neurological puzzle.<ref>[http://www.blelb.ch/english/blelbspots/spot01/expspot01_en.htm "Experiments with Spot 01"] The Visual Perception Lab. Retrieved October 30, 2007.</ref> Although color interactions in the form of simultaneous color contrast effects could be explained by lateral inhibition and excitation functions in color perception, similar to in brightness perception, the assimilation in the Bezold effect is different. It is possible that spatial frequency factors dictate which effect, assimilation or contrast, will prevail.<ref name=fineman/> |
==Applications== | ==Applications== | ||
| − | Knowledge of the Bezold effect is useful in fields such as [[graphic design]], where | + | Knowledge of the Bezold effect is useful in fields such as [[graphic design]], where [[art]]ists can use combinations of adjacent colors to create the effect they desire. |
| + | |||
| + | ==Notes== | ||
| + | <references/> | ||
== References == | == References == | ||
| − | *Albers, J. ''Interaction of color'' | + | *Albers, J. ''Interaction of color''. Unabridged text and selected plates. 8 ed. Massachusetts: Yale University Press, 1978. |
| − | * | + | * Fineman, Mark. ''The Nature of Visual Illusion''. Dover Publications, 1996. ISBN 0486291057 |
| − | *Morioke, Noreen, Terry Stone Sean Adams. | + | *Morioke, Noreen., Terry Stone., and Sean Adams. ''Color Design Workbook: A Real-World Guide to Using Color in Graphic Design''. Lockport Publishers, 2006. ISBN 159253192X |
| + | |||
| + | ==External Links== | ||
| + | All links retrieved October 1, 2023. | ||
| + | |||
| + | *[http://cynthia-in-des001ofucd.blogspot.com/2010/11/how-to-use-bezold-effect-to-change.html How to use "Bezold Effect" to change a design] | ||
| − | + | {{Credits|Bezold_Effect|107112295|}} | |
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Latest revision as of 03:30, 1 October 2023
The Bezold Effect, also referred to as the "assimilation effect," is an optical illusion where a color's hue or value is affected by the color or colors surrounding it.
Discovery
The Bezold effect was first discovered by a German professor of meteorology, Wilhelm von Bezold (1837-1907), who discovered that a color may appear different depending on its relation to adjacent colors. Bezold discovered that contrary to the already established finding of "simultaneous color contrast" in which a color takes on the complimentary hue and contrasting brightness of its surroundings, Bezold discovered that under certain circumstances a colored region will take on the same color as its surround.[1]
Description
When looking at a specific hue, it can appear to change in appearance depending on the colors that surround it. For example, a yellow box surrounded by blue will look darker than a yellow box surrounded by red. Often, the surrounded color seems to take on a tint of the color that surrounds it; red boxes surrounded by blue will appear more bluish than those surrounded by white. The clearest demonstration is when two patches of identical color are surrounded by thin black and white borders respectively. The one surrounded by black appears darker than the one surrounded by white. The colored regions assimilate their border color; the opposite of the contrast effect often found with brightness, and also with hue.
Explanation
The reasons behind the Bezold effect remain a neurological puzzle.[2] Although color interactions in the form of simultaneous color contrast effects could be explained by lateral inhibition and excitation functions in color perception, similar to in brightness perception, the assimilation in the Bezold effect is different. It is possible that spatial frequency factors dictate which effect, assimilation or contrast, will prevail.[1]
Applications
Knowledge of the Bezold effect is useful in fields such as graphic design, where artists can use combinations of adjacent colors to create the effect they desire.
Notes
- ↑ 1.0 1.1 Mark Fineman, The Nature of Visual Illusion (Dover Publications 1996 ISBN 0486291057)
- ↑ "Experiments with Spot 01" The Visual Perception Lab. Retrieved October 30, 2007.
ReferencesISBN links support NWE through referral fees
- Albers, J. Interaction of color. Unabridged text and selected plates. 8 ed. Massachusetts: Yale University Press, 1978.
- Fineman, Mark. The Nature of Visual Illusion. Dover Publications, 1996. ISBN 0486291057
- Morioke, Noreen., Terry Stone., and Sean Adams. Color Design Workbook: A Real-World Guide to Using Color in Graphic Design. Lockport Publishers, 2006. ISBN 159253192X
External Links
All links retrieved October 1, 2023.
Credits
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