Yes, the peak of their black body spectrum is in the UV band but to our eyes the color looks blue or blue white depending on how far into the UV band the black body peak is.
Actually, very large amounts of ice have a very pale blue color. But the outer layer of an iceberg or glacier consists of ice with a lot of air, giving it a white color. Same reason that snow is white.
The curve that contains most stars is called the "Main sequence". The stars on that curve are known as "main sequence stars". Their main characteristic is that they get their energy from fusing hydrogen-1 into helium-4.
The hottest flame color would be blue or white, indicating a very high temperature of the fire. Blue flames are typically seen in gas stoves or Bunsen burners when the combustion is complete.
Yes the color of a star does afect the temp. of a star Blue stars such as Sirus B are the hottest, stars such as Polaris (AKA the North Star) are cooler than the blue ones. Also, stars such as that are yellow-white such as the sun are medium temp.
No stars blue? A star's colour depends on it's temperature. A blue star must be very hot in order for it to glow blue. All stars in the main sequence sre only hot enought to glow yellow, not hot enought to glow blue.
Yes, very hot stars emit more blue light due to their high temperature. This blue-white color is a characteristic of stars with surface temperatures upwards of 10,000 Kelvin.
The 20 brightest stars in the night sky cover the range of star colors: Red, yellow white and blue-white. The single brightest star is Sirius, which is blue-white. Antares and Betelgeuse, both in the top ten, are very red stars, to the naked eye. And so on.
Generally, the more massive a star is, the more luminous they are. The most luminous stars appear blue.
Peach White Blue VERY light purple
Just a very, very dark shade of blue; almost black. Their other color is white.
Mixing pink, blue, and green should yield a very white-ish color with a tint of blue, something like a very light green-blue, the related link i added should help to answer.
A very light blue that it almost seems dark
The Titanic was a red color at the very bottom , then it was a navy blue above that , then above that it was white, then yellow, and then it was black at the very top.
The color of any start is a direct result of the stars internal temperature. The hottest stars are bluish-white, very hot stars are white, the yellow stars, like out sun, not quite as hot, and finally red stars, which while still very hot, are the coolest of the stellar types. It is analogous to heating a steel bar in a forge, First it will get red hot, then yellow, and so on until it reaches white or bluish-white in heat.
A massive blue giant is a type of star that is very large, hot, and luminous, with a blue-white color. These stars are much more massive than our sun and are in a later stage of their evolution, burning through their fuel at a rapid rate. They typically have short lifespans compared to smaller stars like the sun.
Stars flicker all sorts of colors, and the color of the star tells how hot it is. For example, blue and white stars are extremely hot, red stars aren't very hot (but not enough for you to walk on), and green stars are in the middle.
No. Stars of different sizes and composition have different luminosity (light) levels. A very big star will most likely be blue and shines very brightly, while small stars like white dwarf stars emit very white light, but are mostly very dim.