If say in the event of gas interacting with a black hole in a nova then fusion would occur as matter is accreted into the black hole but when any matter pierces the event horizon there is no way of escape unless it escapes as hawking radiation.
Black holes are created when a star runs out of fuel and collapses. That is a nova, A black hole is made when a neutron star goes SuperNova and the energy tears a hole in space, creating a strong gravitational singularity.
No. A black hole may be the remnant of the core of what was once a blue star, but the black hole itself is as black as anything can possibly be.
A black hole is basically an imploded star's remnants that DO NOT turn into a nebula or space dust of some type. However, for a "dead" star to become a black hole it must be very big and have tons of mass. The Sun doesn't have that size requirement, therefore cannot be a black hole theoretically.
Black holes can be detected using a variety of methods. While the black hole itself does not emit any radiation (or any other form of energy), high-energy radiation can still be emitted by matter that is being pulled into it. For example, if a black hole begins to consume a star that has ventured too close, the star will begin to emit x-rays, gamma rays, and/or particle jets as it is pulled apart. When a black hole is "feeding" it can be anything but black: the heat and energy emitted by the ill-fated star (or planet or another black hole or anything else for that matter) can make the location of the black hole to be quite bright. Black holes can also be detected by spotting how they affect their nearby neighbours. They can cause "ripples" in space time, and as these gravitational waves move through space, their affect on objects can be detected and measured.
No, black holes cannot turn into neutron stars. Neutron stars form from the remnants of supernova explosions of massive stars, while black holes are formed from the gravitational collapse of massive stars. Once a black hole is formed, it will remain a black hole and will not transform into a neutron star.
A black hole originated as a star, that is, the star converted to a black hole.
A black hole does not create a star. A black hole is formed when a star dies.
Black holes are created when a star runs out of fuel and collapses. That is a nova, A black hole is made when a neutron star goes SuperNova and the energy tears a hole in space, creating a strong gravitational singularity.
That refers to a black hole - but a black hole is not exactly a star.
Yes. A black hole is a collapsed star.
Yes black hole is last stage of a star
If a star was "too close" to a black hole, that star would be captured by the black hole's gravity and be pulled into it.
No. A black hole may be the remnant of the core of what was once a blue star, but the black hole itself is as black as anything can possibly be.
A black hole is basically an imploded star's remnants that DO NOT turn into a nebula or space dust of some type. However, for a "dead" star to become a black hole it must be very big and have tons of mass. The Sun doesn't have that size requirement, therefore cannot be a black hole theoretically.
Black holes can be detected using a variety of methods. While the black hole itself does not emit any radiation (or any other form of energy), high-energy radiation can still be emitted by matter that is being pulled into it. For example, if a black hole begins to consume a star that has ventured too close, the star will begin to emit x-rays, gamma rays, and/or particle jets as it is pulled apart. When a black hole is "feeding" it can be anything but black: the heat and energy emitted by the ill-fated star (or planet or another black hole or anything else for that matter) can make the location of the black hole to be quite bright. Black holes can also be detected by spotting how they affect their nearby neighbours. They can cause "ripples" in space time, and as these gravitational waves move through space, their affect on objects can be detected and measured.
A black hole is a collapsed star with such a strong gravitational pull that not even light can escape from it. This phenomenon occurs when a massive star runs out of nuclear fuel and collapses under its own gravity. The boundary surrounding a black hole, beyond which nothing can escape, is called the event horizon.
A black hole is the stellar remains of a massive star.