Violet (color)

Violet
 
Spectral coordinates
Wavelength 380–450 nm
Frequency 790–666 THz
    Color coordinates
Hex triplet #7F00FF
sRGBB  (r, g, b) (127, 0, 255)
CMYKH   (c, m, y, k) (50, 100, 0, 0)
HSV       (h, s, v) (270°, 100%, 100%)
Source [Unsourced]
B: Normalized to [0–255] (byte)
H: Normalized to [0–100] (hundred)
Violet as a tertiary color
  purple
  violet[1]
  blue

Violet is the color of amethyst, lavender and beautyberries. It takes its name from the violet flower.[2][3]

Violet is the color at the end of the visible spectrum of light between blue and the invisible ultraviolet. Violet color has a predominant light wavelength of roughly 380-450 nanometers[4] (in experiments under special conditions, people have so far seen to 310 nm).[5][6][7] Light with a shorter wavelength than violet but longer than X-rays and gamma rays is called ultraviolet. In the color wheel historically used by painters, it is located between blue and purple. On the screens of computer monitors and television sets, a color which looks similar to violet is made, with the RGB color model, by mixing red and blue light, with the blue twice as bright as the red. This is not true violet, since it is composed of multiple longer wavelengths rather than a single wavelength shorter than that of blue light.

Violet and purple look similar, but violet is a spectral color, with its own set of wavelengths on the spectrum of visible light. Purple is a polychromatic color, made by combining blue and red.

In history, violet and purple have long been associated with royalty and majesty. The emperors of Rome wore purple togas, as did the Byzantine emperors. During the Middle Ages violet was worn by bishops and university professors and was often used in art as the color of the robes of the Virgin Mary.

According to surveys in Europe and the United States, violet is the color people most often associate with extravagance and individualism, the unconventional, the artificial, and ambiguity.[8]

In Chinese painting, the color violet represents the harmony of the universe because it is a combination of red and blue (Yin and yang respectively).[9] In Hinduism and Buddhism violet is associated with the Crown Chakra.[2]

Etymology

From the Middle English and old French violette, and from the Latin viola, the names of the violet flower.[10] The first recorded use of violet as a color name in English was in 1370.[11] Violet can also refer to the first violas which were originally painted a similar color.

Violet and purple

In the traditional color wheel used by painters, violet and purple are both placed between red and blue. Purple occupies the space closer to red, between crimson and violet.[12] Violet is closer to blue, and usually less intense and bright than purple.

From the point of view of optics, violet is a real color: it occupies its own place at the end of the visible spectrum, and was one of the seven spectral colors of the spectrum first described by Isaac Newton in 1672.

In the additive color system, used to create colors on a computer screen or on a color television, violet is simulated by purple, by combining blue light at high intensity with a less intense red light on a black screen. The range of purples is created by combining blue and red light of any intensities; the chromaticities formed this way line along the "line of purples".

In history and art

Prehistory and antiquity

Violet is one of the oldest colors used by man. Traces of very dark violet, made by grinding the mineral manganese, mixed with water or animal fat and then brushed on the cave wall or applied with the fingers, are found in the prehistoric cave art in Pech Merle, in France, dating back about twenty-five thousand years. It has also been found in the cave of Altamira and Lascaux.[13] It was sometimes used as an alternative to black charcoal. Sticks of manganese, used for drawing, have been found at sites occupied by Neanderthal man in France and Israel. From the grinding tools at various sites, it appears it may also have been used to color the body and to decorate animal skins.

More recently, the earliest dates on cave paintings have been pushed back farther than 35,000 years. Hand paintings on rock walls in Australia may be even older, dating back as far as 50,000 years.

Berries of the genus rubus, such as blackberries, were a common source of dyes in antiquity. The ancient Egyptians made a kind of violet dye by combining the juice of the mulberry with crushed green grapes. The Roman historian Pliny the Elder reported that the Gauls used a violet dye made from bilberry to color the clothing of slaves. These dyes made a satisfactory purple, but it faded quickly in sunlight and when washed.[14]

The Middle Ages and the Renaissance

Violet and purple retained their status as the color of emperors and princes of the church throughout the long rule of the Byzantine Empire.

While violet was worn less frequently by Medieval and Renaissance kings and princes, it was worn by the professors of many of Europe's new universities. Their robes were modeled after those of the clergy, and they often wore square violet caps and violet robes, or black robes with violet trim.

Violet also played an important part in the religious paintings of the Renaissance. Angels and the Virgin Mary were often portrayed wearing violet robes. The 15th-century Florentine painter Cennino Cennini advised artists: "If you want to make a lovely violet colour, take fine lacca, ultramarine blue (the same amount of the one as of the other)..." For fresco painters, he advised a less-expensive version, made of a mixture of blue indigo and red hematite.[15]

18th and 19th centuries

In the 18th century, violet was a color worn by royalty, aristocrats and the wealthy, and by both men and women. Good-quality violet fabric was expensive, and beyond the reach of ordinary people.

Many painters of the 19th century experimented with the uses of the color violet to capture the subtle effects of light. Eugène Delacroix (1798–1863) made use of violet in the sky and shadows of many of his works, such as his painting of a tiger.

The first cobalt violet, the intensely red-violet cobalt arsenate, was highly toxic. Although it persisted in some paint lines into the twentieth-century, it was displaced by less toxic cobalt compounds such as cobalt phosphate. Cobalt violet appeared in the second half of the 19th century, broadening the palette of artists. Cobalt violet was used by Paul Signac (1863–1935), Claude Monet (1840–1926), and Georges Seurat (1859–1891).[16] Today, cobalt ammonium phosphate, cobalt lithium phosphate, and cobalt phosphate are available for use by artists. Cobalt ammonium phosphate is the most reddish of the three. Cobalt phosphate is available in two varieties — a deep less saturated blueish type and a lighter and brighter somewhat more reddish type. Cobalt lithium phosphate is a saturated lighter-valued bluish violet. A color similar to cobalt ammonium phosphate, cobalt magnesium borate, was introduced in the later twentieth-century but was not deemed sufficiently lightfast for artistic use. Cobalt violet is the only truly lightfast violet pigment with relatively strong color saturation. All other light-stable violet pigments are dull by comparison. However, the high price of the pigment and the toxicity of cobalt has limited its use.

Vincent van Gogh (1853–1890) was an avid student of color theory. He used violet in many of his paintings of the 1880s, including his paintings of irises and the swirling and mysterious skies of his starry night paintings, and often combined it with it complementary color, yellow. In his painting of his bedroom in Arles (1888), he used several sets of complementary colors; violet and yellow, red and green, and orange and blue. In a letter about the painting to his brother Theo, he wrote, "The color here...should be suggestive of sleep and repose in general....The walls are a pale violet. The floor is of red tiles. The wood of the bed and the chairs are fresh butter yellow, the sheet and the pillows light lemon green. The bedspread bright scarlet. The window green. The bed table orange. The bowl blue. The doors lilac....The painting should rest the head or the imagination."[17]

In 1856, a young British chemist named William Henry Perkin was trying to make a synthetic quinine. His experiments produced instead an unexpected residue, which turned out to be the first synthetic aniline dye, a deep violet color called mauveine, or abbreviated simply to mauve (the dye being named after the lighter color of the mallow [mauve] flower). Used to dye clothes, it became extremely fashionable among the nobility and upper classes in Europe, particularly after Queen Victoria wore a silk gown dyed with mauveine to the Royal Exhibition of 1862. Prior to Perkin's discovery, mauve was a color which only the aristocracy and rich could afford to wear. Perkin developed an industrial process, built a factory, and produced the dye by the ton, so almost anyone could wear mauve. It was the first of a series of modern industrial dyes which completely transformed both the chemical industry and fashion.[18]

20th and 21st centuries

The violet or purple necktie became very popular at the end of the first decade of the 21st century, particularly among political and business leaders. It combined the assertiveness and confidence of a red necktie with the sense of peace and cooperation of a blue necktie, and it went well with the blue business suit worn by most national and corporate leaders.

In science

Optics

Violet is at one end of the spectrum of visible light, between blue and the invisible ultraviolet. It has the shortest wavelength of all the visible colors. It is the color the eye sees looking at light with a wavelength of between 380 and 450 nanometers.

In the traditional color wheel used by painters, violet and purple lie between red and blue. Violet is inclined toward blue, while purple is inclined toward red.

Violet colors composed by mixing blue and red light are within the purple colors[19] (the word "purple" is used in the common sense for any color between blue and red). In color theory, a purple is a color along the line of purples on the CIE chromaticity diagram and excludes violet. Violet light from the rainbow, which can be referred as spectral violet, has only short wavelengths.

Violet objects are objects that reflect violet light. Objects reflecting spectral violet often appear dark, because human vision is relatively insensitive to those wavelengths. Monochromatic lamps emitting spectral-violet wavelengths can be roughly approximated by the color shown below as electric violet.

Chemistry – pigments and dyes

The earliest violet pigments used by humans, found in prehistoric cave paintings, were made from the minerals manganese and hematite. Manganese is still used today by the Aranda people, a group of indigenous Australians, as a traditional pigment for coloring the skin during rituals. It is also used by the Hopi Indians of Arizona to color ritual objects.

The most famous violet-purple dye in the ancient world was Tyrian purple, made from a type of sea snail called the murex, found around the Mediterranean.

In western Polynesia, residents of the islands made a violet dye similar to Tyrian purple from the sea urchin. In Central America, the inhabitants made a dye from a different sea snail, the purpura, found on the coasts of Costa Rica and Nicaragua. The Mayans used this color to dye fabric for religious ceremonies, and the Aztecs used it for paintings of ideograms, where it symbolized royalty.[20]

During the Middle Ages, most artists made purple or violet on their paintings by combining red and blue pigments; usually blue azurite or lapis-lazuili with red ochre, cinnabar or minium. They also combined lake colors made by mixing dye with powder; using woad or indigo dye for the blue, and dye made from cochineal for the red.[20]

Orcein, or purple moss, was another common violet dye. It was known to the ancient Greeks and Hebrews, was made from a Mediterranean lichen called archil or dyer's moss (Roccella tinctoria), combined with an ammoniac, usually urine. Orcein began to achieve popularity again in the 19th century, when violet and purple became the color of demi-mourning, worn after a widow or widower had worn black for a certain time, before he or she returned to wearing ordinary colors.[21]

In the 18th century, chemists in England, France and Germany began to create the first synthetic dyes. Two synthetic purple dyes were invented at about the same time. Cudbear is a dye extracted from orchil lichens that can be used to dye wool and silk, without the use of mordant. Cudbear was developed by Dr. Cuthbert Gordon of Scotland: production began in 1758, The lichen is first boiled in a solution of ammonium carbonate. The mixture is then cooled and ammonia is added and the mixture is kept damp for 3–4 weeks. Then the lichen is dried and ground to powder. The manufacture details were carefully protected, with a ten-feet high wall being built around the manufacturing facility, and staff consisting of Highlanders sworn to secrecy.

French purple was developed in France at about the same time. The lichen is extracted by urine or ammonia. Then the extract is acidified, the dissolved dye precipitates and is washed. Then it is dissolved in ammonia again, the solution is heated in air until it becomes purple, then it is precipitated with calcium chloride; the resulting dye was more solid and stable than other purples.

Cobalt violet is a synthetic pigment that was invented in the second half of the 19th century, and is made by a similar process as cobalt blue, cerulean blue and cobalt green. It is the violet pigment most commonly used today by artists, along with manganese violet.

Mauveine, also known as aniline purple and Perkin's mauve, was the first synthetic organic chemical dye,[22][23] discovered serendipitously in 1856. Its chemical name is 3-amino-2,±9-dimethyl-5-phenyl-7-(p-tolylamino) phenazinium acetate.

In the 1950s, a new family of violet synthetic organic pigments called quinacridone came onto the market. It had originally been discovered in 1896, but were not synthetized until 1936, and not manufactured until the 1950s. The colors in the group range from deep red to violet in color, and have the molecular formula C20H12N2O2. They have strong resistance to sunlight and washing, and are used in oil paints, water colors, and acrylics, as well as in automobile coatings and other industrial coatings.

Zoology

Botany

In culture – symbolism and associations

Cultural associations

In Western culture

Popularity of the color
The color of royalty and luxury
Vanity, extravagance, and individualism
Ambiguity and ambivalence

In Asian culture

In dress

New Age

Religion

Politics

Flags

See also

References

Notes

  1. RGB approximations of RYB tertiary colors, using cubic interpolation. The colors displayed here are substantially paler than the true colors a mixture of paints would produce.
  2. 1 2 http://www.color-wheel-artist.com/meanings-of-violet.html
  3. Webster's New World Dictionary of the American Language, The World Publishing Company, New York, 1964.
  4. J. W. G. Hunt (1980). Measuring Color. Ellis Horwood Ltd. ISBN 0-7458-0125-0.
  5. Lynch, David K.; Livingston, William Charles (2001). Color and Light in Nature (2nd ed.). Cambridge, UK: Cambridge University Press. p. 231. ISBN 978-0-521-77504-5. Retrieved 12 October 2013. Limits of the eye's overall range of sensitivity extends from about 310 to 1050 nanometers
  6. Dash, Madhab Chandra; Dash, Satya Prakash (2009). Fundamentals Of Ecology 3E. Tata McGraw-Hill Education. p. 213. ISBN 978-1-259-08109-5. Retrieved 18 October 2013. Normally the human eye responds to light rays from 390 to 760 nm. This can be extended to a range of 310 to 1,050 nm under artificial conditions.
  7. Saidman, Jean (15 May 1933). "Sur la visibilité de l'ultraviolet jusqu'à la longueur d'onde 3130" [The visibility of the ultraviolet to the wave length of 3130]. Comptes rendus de l'Académie des sciences (in French). 196: 1537–9.
  8. 1 2 Eva Heller, Psychologie de la couleur: effets et symboliques. p. 4.
  9. Varichon, Anne Colors:What They Mean and How to Make Them New York:2006 Abrams Page 138
  10. Webster's New World Dictionary of the American Language, College Edition, 1964.
  11. Maerz and Paul A Dictionary of Color New York: 1930 McGraw-Hill Page 207
  12. Shorter Oxford English Dictionary, 5th Edition, 2003.
  13. Phillip Ball (2001), Bright earth- Art and the Invention of Colour, p. 84
  14. Anne Varichon (2000), Couleurs: pigments et teintures dans les mains des peuples, p. 146–148
  15. Lara Broecke, Cennino cennini's Il Libro dell'Arte: a New English Translation and Commentary with Italian Transcription, Archetype 2015, p. 115
  16. Isabel Roelofs (2012), La couleur expliquée aux artistes, p. 52–53
  17. John Gage (2006), La Couleur dans l'art, p. 50–51. Citing Letter 554 from Van Gogh to Theo. (translation of excerpt by D.R. Siefkin)
  18. Garfield, S. (2000). Mauve: How One Man Invented a Colour That Changed the World. Faber and Faber, London, UK. ISBN 978-0-571-20197-6.
  19. M. Roll (8 September 2012). "Color Wheel". Colorado State University.
  20. 1 2 Anne Carichon (2000), Couleurs: pigments et teintures dans les mains des peuples. p. 133.
  21. Anne Carichon (2000), Couleurs: pigments et teintures dans les mains des peuples. p. 144.
  22. Hubner K (2006). "History - 150 Years of mauveine". Chemie in unserer Zeit. 40 (4): 274–275. doi:10.1002/ciuz.200690054.
  23. Anthony S. Travis (1990). "Perkin’s Mauve: Ancestor of the Organic Chemical Industry". Technology and Culture. 31 (1): 51–82. JSTOR 3105760. doi:10.2307/3105760.
  24. Eva Heller, Psychologie de la couleur: effets et symboliques, p. 167.
  25. Anne Varichon, Couleurs: pigments et teintures dans les mains des peuples, p. 139
  26. Bailey, Alice A. (1995). The Seven Rays of Life. New York: Lucis Publishing Company. ISBN 0-85330-142-5.
  27. "St. Germain" (dictated through Elizabeth Clare Prophet) Studies in Alchemy: the Science of Self-Transformation 1974:Colorado Springs, Colorado, USA Summit Lighthouse Pages 80-90 [Occult] Biographical sketch of St. Germain
  28. Stained glass window in the Cathedral of the Angels in Los Angeles, California depicting God the Father wearing a violet robe:
  29. Eva Heller, Psychologie de la couleur: effets et symboliques. p. 166,
  30. Stevens, Samantha. The Seven Rays: a Universal Guide to the Archangels. City: Insomniac Press, 2004. ISBN 1-894663-49-7 p. 24
  31. Eva Heller, Psychologie de la couleur: effets et symboliques. illustration 75.
  32. Violet Party website:
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