No. Blue stars will generally leave behind neutron stars or black holes.
Black Holes. Black dwarfs, Binary stars, Bok globules, Blue stars, Blue-white stars, Barium stars, Beta Cephei variables, Beta Lyrae stars,
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 stars still undergoing fusion tend to be blue in colour. These stars rarely get above 50,000 K. Even hotter stars are white dwarfs. They appear white with maybe a blueish tone. They can be as hot as 250,000K.
No, Rigel is not a white dwarf. Rigel is a blue supergiant star located in the constellation Orion. White dwarfs are the remnants of small to medium-sized stars that have exhausted their nuclear fuel and collapsed.
Blue giants and red dwarfs are both types of stars, but they are quite different. Blue giants are massive and hot stars that shine brightly, while red dwarfs are smaller, cooler stars that emit a fainter light. Blue giants are more short-lived and evolve faster compared to red dwarfs, which have much longer lifespans.
The hottest stars in space are typically blue or white in color. This is because their high temperatures cause them to emit predominantly blue or white light. Cooler stars, on the other hand, appear redder in color.
No. A blue dwarf is a theoretical class of star. The known blue stars are not blue dwarfs.
Stars are classified by their type and temperature. Amongst some of the types of stars in our galaxy are white dwarfs, blue giants, and red supergiants. Our own Sun is a yellow dwarf, and like most stars is a main-sequence star.
Main sequence stars include dwarf stars like red dwarfs, yellow dwarfs (like our Sun), and blue dwarfs. These stars are in a stable phase of hydrogen fusion in their cores, where the energy generated by nuclear reactions supports the star against gravitational collapse.
The Milky Way galaxy contains a variety of stars, including main sequence stars (like our Sun), giants, supergiants, white dwarfs, and neutron stars. The most common stars are red dwarfs, making up about 70-80% of all stars in the Milky Way. There are also many other types of stars, such as yellow dwarfs (like our Sun), blue giants, and red giants.
The smallest stars, often classified as red dwarfs, typically exhibit a reddish hue due to their lower temperatures. These stars have surface temperatures ranging from about 2,500 to 4,000 degrees Celsius, which gives them their characteristic color. In contrast to hotter stars that appear blue or white, the cooler temperatures of red dwarfs result in their distinct color.
Red stars can be smaller or larger than blue stars as there are two types of red star. Red dwarfs are much smaller than blue stars while red giants are much larger than blue stars.