RGB colors on Ethereum blockchain.

A collection of 138 unique NFTs.

The first NFT series to be entirely based on RGB values. Like a serial number or artist proof, each piece has a unique number sequence and therefore no two pieces are alike. RGB colors NFT collection constructs all the colors from the combination of the Red, Green and Blue colors. The red, green and blue use 8 bits each, which have integer values from 0 to 255. RGB ≡ Red, Green, Blue.

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Color Name #RRGGBB (Hex Code) R,G,B (Decimal code)
  maroon #800000 (128,0,0)
  dark red #8B0000 (139,0,0)
  brown #A52A2A (165,42,42)
  firebrick #B22222 (178,34,34)
  crimson #DC143C (220,20,60)
  red #FF0000 (255,0,0)
  tomato #FF6347 (255,99,71)
  coral #FF7F50 (255,127,80)
  indian red #CD5C5C (205,92,92)
  light coral #F08080 (240,128,128)
  dark salmon #E9967A (233,150,122)
  salmon #FA8072 (250,128,114)
  light salmon #FFA07A (255,160,122)
  orange red #FF4500 (255,69,0)
  dark orange #FF8C00 (255,140,0)
  orange #FFA500 (255,165,0)
  gold #FFD700 (255,215,0)
  dark golden rod #B8860B (184,134,11)
  golden rod #DAA520 (218,165,32)
  pale golden rod #EEE8AA (238,232,170)
  dark khaki #BDB76B (189,183,107)
  khaki #F0E68C (240,230,140)
  olive #808000 (128,128,0)
  yellow #FFFF00 (255,255,0)
  yellow green #9ACD32 (154,205,50)
  dark olive green #556B2F (85,107,47)
  olive drab #6B8E23 (107,142,35)
  lawn green #7CFC00 (124,252,0)
  chart reuse #7FFF00 (127,255,0)
  green yellow #ADFF2F (173,255,47)
  dark green #006400 (0,100,0)
  green #008000 (0,128,0)
  forest green #228B22 (34,139,34)
  lime #00FF00 (0,255,0)
  lime green #32CD32 (50,205,50)
  light green #90EE90 (144,238,144)
  pale green #98FB98 (152,251,152)
  dark sea green #8FBC8F (143,188,143)
  medium spring green #00FA9A (0,250,154)
  spring green #00FF7F (0,255,127)
  sea green #2E8B57 (46,139,87)
  medium aqua marine #66CDAA (102,205,170)
  medium sea green #3CB371 (60,179,113)
  light sea green #20B2AA (32,178,170)
  dark slate gray #2F4F4F (47,79,79)
  teal #008080 (0,128,128)
  dark cyan #008B8B (0,139,139)
  aqua #00FFFF (0,255,255)
  cyan #00FFFF (0,255,255)
  light cyan #E0FFFF (224,255,255)
  dark turquoise #00CED1 (0,206,209)
  turquoise #40E0D0 (64,224,208)
  medium turquoise #48D1CC (72,209,204)
  pale turquoise #AFEEEE (175,238,238)
  aqua marine #7FFFD4 (127,255,212)
  powder blue #B0E0E6 (176,224,230)
  cadet blue #5F9EA0 (95,158,160)
  steel blue #4682B4 (70,130,180)
  corn flower blue #6495ED (100,149,237)
  deep sky blue #00BFFF (0,191,255)
  dodger blue #1E90FF (30,144,255)
  light blue #ADD8E6 (173,216,230)
  sky blue #87CEEB (135,206,235)
  light sky blue #87CEFA (135,206,250)
  midnight blue #191970 (25,25,112)
  navy #000080 (0,0,128)
  dark blue #00008B (0,0,139)
  medium blue #0000CD (0,0,205)
  blue #0000FF (0,0,255)
  royal blue #4169E1 (65,105,225)
  blue violet #8A2BE2 (138,43,226)
  indigo #4B0082 (75,0,130)
  dark slate blue #483D8B (72,61,139)
  slate blue #6A5ACD (106,90,205)
  medium slate blue #7B68EE (123,104,238)
  medium purple #9370DB (147,112,219)
  dark magenta #8B008B (139,0,139)
  dark violet #9400D3 (148,0,211)
  dark orchid #9932CC (153,50,204)
  medium orchid #BA55D3 (186,85,211)
  purple #800080 (128,0,128)
  thistle #D8BFD8 (216,191,216)
  plum #DDA0DD (221,160,221)
  violet #EE82EE (238,130,238)
  magenta / fuchsia #FF00FF (255,0,255)
  orchid #DA70D6 (218,112,214)
  medium violet red #C71585 (199,21,133)
  pale violet red #DB7093 (219,112,147)
  deep pink #FF1493 (255,20,147)
  hot pink #FF69B4 (255,105,180)
  light pink #FFB6C1 (255,182,193)
  pink #FFC0CB (255,192,203)
  antique white #FAEBD7 (250,235,215)
  beige #F5F5DC (245,245,220)
  bisque #FFE4C4 (255,228,196)
  blanched almond #FFEBCD (255,235,205)
  wheat #F5DEB3 (245,222,179)
  corn silk #FFF8DC (255,248,220)
  lemon chiffon #FFFACD (255,250,205)
  light golden rod yellow #FAFAD2 (250,250,210)
  light yellow #FFFFE0 (255,255,224)
  saddle brown #8B4513 (139,69,19)
  sienna #A0522D (160,82,45)
  chocolate #D2691E (210,105,30)
  peru #CD853F (205,133,63)
  sandy brown #F4A460 (244,164,96)
  burly wood #DEB887 (222,184,135)
  tan #D2B48C (210,180,140)
  rosy brown #BC8F8F (188,143,143)
  moccasin #FFE4B5 (255,228,181)
  navajo white #FFDEAD (255,222,173)
  peach puff #FFDAB9 (255,218,185)
  misty rose #FFE4E1 (255,228,225)
  lavender blush #FFF0F5 (255,240,245)
  linen #FAF0E6 (250,240,230)
  old lace #FDF5E6 (253,245,230)
  papaya whip #FFEFD5 (255,239,213)
  sea shell #FFF5EE (255,245,238)
  mint cream #F5FFFA (245,255,250)
  slate gray #708090 (112,128,144)
  light slate gray #778899 (119,136,153)
  light steel blue #B0C4DE (176,196,222)
  lavender #E6E6FA (230,230,250)
  floral white #FFFAF0 (255,250,240)
  alice blue #F0F8FF (240,248,255)
  ghost white #F8F8FF (248,248,255)
  honeydew #F0FFF0 (240,255,240)
  ivory #FFFFF0 (255,255,240)
  azure #F0FFFF (240,255,255)
  snow #FFFAFA (255,250,250)
  black #000000 (0,0,0)
  dim gray / dim grey #696969 (105,105,105)
  gray / grey #808080 (128,128,128)
  dark gray / dark grey #A9A9A9 (169,169,169)
  silver #C0C0C0 (192,192,192)
  light gray / light grey #D3D3D3 (211,211,211)
  gainsboro #DCDCDC (220,220,220)
  white smoke #F5F5F5 (245,245,245)
  white #FFFFFF (255,255,255)

About RGB color model

The main purpose of the RGB color model is for the sensing, representation, and display of images in electronic systems, such as televisions and computers, though it has also been used in conventional photography. Before the electronic age, the RGB color model already had a solid theory behind it, based in human perception of colors.

RGB is a device-dependent color model: different devices detect or reproduce a given RGB value differently, since the color elements (such as phosphors or dyes) and their response to the individual red, green, and blue levels vary from manufacturer to manufacturer, or even in the same device over time. Thus an RGB value does not define the same color across devices without some kind of color management.

Typical RGB input devices are color TV and video cameras, image scanners, and digital cameras. Typical RGB output devices are TV sets of various technologies (CRT, LCD, plasma, OLED, quantum dots, etc.), computer and mobile phone displays, video projectors, multicolor LED displays and large screens such as the Jumbotron. Color printers, on the other hand are not RGB devices, but subtractive color devices typically using the CMYK color model.

The RGB color model is additive in the sense that the three light beams are added together, and their light spectra add, wavelength for wavelength, to make the final color’s spectrum. This is essentially opposite to the subtractive color model, particularly the CMY color model, that applies to paints, inks, dyes, and other substances whose color depends on reflecting the light under which we see them. Because of properties, these three colors create white, this is in stark contrast to physical colors, such as dyes which create black when mixed.

Zero intensity for each component gives the darkest color (no light, considered the black), and full intensity of each gives a white; the quality of this white depends on the nature of the primary light sources, but if they are properly balanced, the result is a neutral white matching the system’s white point. When the intensities for all the components are the same, the result is a shade of gray, darker or lighter depending on the intensity. When the intensities are different, the result is a colorized hue, more or less saturated depending on the difference of the strongest and weakest of the intensities of the primary colors employed.

When one of the components has the strongest intensity, the color is a hue near this primary color (red-ish, green-ish, or blue-ish), and when two components have the same strongest intensity, then the color is a hue of a secondary color (a shade of cyan, magenta or yellow). A secondary color is formed by the sum of two primary colors of equal intensity: cyan is green+blue, magenta is blue+red, and yellow is red+green. Every secondary color is the complement of one primary color: cyan complements red, magenta complements green, and yellow complements blue. When all the primary colors are mixed in equal intensities, the result is white.

The RGB color model itself does not define what is meant by red, green, and blue colorimetrically, and so the results of mixing them are not specified as absolute, but relative to the primary colors.

Modern storage, however, is far less costly, greatly reducing the need to minimize image file size. By using an appropriate combination of red, green, and blue intensities, many colors can be displayed. Current typical display adapters use up to 24-bits of information for each pixel: 8-bit per component multiplied by three components (see the Digital representations section below (24bits = 2563, each primary value of 8 bits with values of 0–255). With this system, 16,777,216 (2563 or 224) discrete combinations of R, G, and B values are allowed, providing millions of different (though not necessarily distinguishable) hue, saturation and lightness shades. Increased shading has been implemented in various ways, some formats such as .png and .tga files among others using a fourth greyscale color channel as a masking layer, often called RGB32.

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