No. Even a brown dwarf, one that we would call "cool" for a star, still has surface temperatures far above the vaporization temperature of all matter. And even if you had perfectly insulating shoes, the gravity on the surface of even a small star would crush any material object instantly.
The coldest stars are the red dwarves. Anything colder than that would be a "brown dwarf", which is no longer really a star.
A white dwarf who's progenitor star was about the same mass as our Sun will leave behind a stellar remnant around the size of our Earth. Obviously if the progenitor star was larger or smaller, then the stellar remnant will also be larger or smaller.
All stars are smaller than Solar Systems. A star is what keeps everything withen a system with it's immense gravitational pull. Stars also vary in size from giant superstars to small dwarf stars our Sun, Sol, is a midsized middle aged star.
Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.Then, depending on the remaining mass of the star, it will collapse into a white dwarf, a neutron star (aka pulsar), or a black hole.
It is a white dwarf.
A brown dwarf is a celestial object that has a size that is between a star and a giant planet.
No. A brown dwarf is a star that has too low a mass to start nuclear fusion. A black dwarf is a former white dwarf, the remnant of a low to medium mass star that ran out of fuel in its core.
The death star is known as the nemesis star AKA the death star, brown dwarf star, red dwarf star, or the sun's twin.
That's called a brown dwarf.
Yes, a brown dwarf is a star that failed to ignite hydrogen fusion because it did not have enough mass for a strong enough gravitational collapse. Brown dwarf stars glow dimly with residual heat for a very short time.
A brown dwarf star or a black hole
That can either be an old white dwarf, a red dwarf. or a brown dwarf.
No Brown Dwarfs are too small to be considerred a star.
A brown dwarf is not massive enough to create the heat and pressure at its core needed for nuclear fusion.
A brown dwarf would qualify.
False. A brown dwarf is a failed star that cannot sustain nuclear fusion. When a star explodes it will leav behind either a neutron star or a black hole depending on its mass.
A protostar is a star the is developing as is on the way to starting nuclear fusion. A brown dwarf is a failed star, one that failed to gather enough mass to start fusion.