Anti-Flash White 🎨 RGB Color Code: #F2F3F4
The hexadecimal RGB code of Anti-Flash White color is #F2F3F4. This code is composed of a hexadecimal F2 red (242/256), a F3 green (243/256) and a F4 blue component (244/256). The decimal RGB color code is rgb(242,243,244). Closest WebSafe color: White (#FFFFFF)
GSearch on Google
RGB
HSV
CMYK
Quick use
Click and Copy the codes below for quick use.
Shades & Tints
Complementary Color
Anti-Flash White on Wikipedia
Anti-flash white is a white colour commonly seen on British, Soviet, and U.S. nuclear bombers. The purpose of the colour is to reflect some of the thermal
Conversion Unit (OCU), the first in July 1956. Later aircraft, painted in anti-flash white and powered by the Olympus 102 with 12,000 lbf (53 kN) thrust, began
red stripe forward. Aircraft painted anti-flash white in the nuclear strike role had a pale pink and blue flash, the same shades as the roundels, to reflect
shade, and the result of the absence or complete absorption of light. Like white and gray, it is an achromatic color, literally a color without hue. Blue
The footage shows the specially adapted Tu-95V plane – painted with anti-flash white on its ventral surfaces – taking off carrying the bomb, in-flight scenes
introduced on this model. The belly of the aircraft was painted with anti-flash white paint, which was intended to reflect the thermal radiation of a nuclear
generally finished in bare metal or anti-flash white to minimize absorption of thermal radiation from the flash of a nuclear explosion. The need to drop
reduce visibility; the Tu-160 is painted with anti-flash white, giving it the nickname among Russian airmen "White Swan". On 16 September 2023, Commander of
000 ft or 21,000 m). Soviet Union interceptor aircraft, the only effective anti-bomber weapon in the 1950s, were already unable to intercept the high-flying
Use the palette to pick a color or the sliders to set the RGB, HSV, CMYK components. Search for a color by its name in the list containing more than 2000 names.
There are many ways to mix/generate a color. Computer screens display the required color mixing tiny red, green and blue lights (RGB). Turning off all three components results in a black pixel, while if all components are lit up on full brightness that results a white light.
In print we use cyan, yellow, magenta and black (CMYK) inks because usually we print on a white paper. In this case the lack of the ink will result white paper, and we get a dark shade if more colors are mixed together. We can also define a color by hue, saturation and value (HSV).
