Qentanglement said:So if we have a supermassive black hole or a regular black hole with gas swirling around it. Can this gas get hot enough to fuse with other gas molecules around it? It seems like there would be enough energy to do this, maybe not. This question seems non-trivial and I think it needs some calculations. What is the answer to this question?
Chronos said:Fusion is not possible in the vicinity of a black hole. Tidal forces overwhelm gravitational attraction. Binary star systems do to not form is such close proximity.
Fusion is a nuclear reaction in which two or more atomic nuclei collide and combine to form a heavier nucleus. This process releases a large amount of energy, similar to the power source of the sun.
Yes, fusion can occur at the accretion disk of a black hole. The conditions at the accretion disk, such as high temperatures and pressures, are suitable for fusion reactions to take place.
The extreme conditions at the accretion disk, including high temperatures and pressures, cause particles to collide and fuse together, releasing a significant amount of energy. This energy is then emitted as radiation, making the accretion disk of a black hole a potential site for fusion reactions.
Fusion at the accretion disk of a black hole can produce a range of elements, depending on the specific reactions occurring. These elements can include hydrogen, helium, and heavier elements like carbon, nitrogen, and oxygen.
Yes, there are several challenges to achieving fusion at the accretion disk of a black hole. These include the extreme conditions that make it difficult to control and sustain fusion reactions, as well as the intense gravitational pull of the black hole that can disrupt the fusion process. Additionally, the high levels of radiation at the accretion disk can also pose challenges to achieving and maintaining fusion reactions.