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. 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.
They are white or blue. After they become this colour they explode and become a black hole.
White Stars
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.
Blue and white stars are the hottest.
red dwarfs,yellow stars,blue giants
blue and white stars are hotter than red stars (and newer).
No. Red stars are the coolest. Blue stars are the hottest.