Just like any matter, light or other electromagnetic waves (this includes gamma rays), if they happen to get within the black hole's event horizon, will just get absorbed, slightly increasing the mass of the black hole.
Strictly speaking, gamma rays don't exit a black hole; they are electromagnetic radiation just like visible light - although they carry a higher energy - and neither light nor matter can exit a black hole. However, a black hole can cause gamma radiation to be created near it - for example, by processes at quasars or active galactic nuclei, which, powered by a supermassive black hole, can generate immensely powerful jets or beams which can accelerate particles to relativistic speeds, boost lower energy photons, and generate powerful x-rays and gamma rays. Another possible source of gamma rays is the so-called black hole evaporation, through which a black hole could potentially lose its mass and end its life with an explosive gamma burst.
In an indirect way, yes. Gama rays are the highest-intensity form of electromagnetic energy. They usually indicate a very power energy source. Most black holes are formed by exploding stars called supernovas. These events can be detected as gamma ray bursts.
This is NOT true. Black holes are formed when massive stars explode in supernovas, blowing much of the star into space and crushing the core into a black hole. One of the things that WILL happen is a massive pulse of x-rays and gamma rays.
X-rays, mainly.
Matter falling onto a black hole can form an accretion disk heated by friction, forming some of the brightest objects in the universe. These bright objects are indicative of nuclear meltdown due to the stretching and compaction of matter as it nears the event horizon. Preceding the accretion disk, there is a increase in the speed of star revolving about a central black hole as it is gravitationally attracted toward a black hole.
No. Gamma rays are light, and the only thing that can "hold" light is the "inside" of a black hole's event horizon.
The gamma rays would be absorbed, the black hole's mass would increase.
Strictly speaking, gamma rays don't exit a black hole; they are electromagnetic radiation just like visible light - although they carry a higher energy - and neither light nor matter can exit a black hole. However, a black hole can cause gamma radiation to be created near it - for example, by processes at quasars or active galactic nuclei, which, powered by a supermassive black hole, can generate immensely powerful jets or beams which can accelerate particles to relativistic speeds, boost lower energy photons, and generate powerful x-rays and gamma rays. Another possible source of gamma rays is the so-called black hole evaporation, through which a black hole could potentially lose its mass and end its life with an explosive gamma burst.
Black Holes end up producing large quantities of gamma rays throughout their lives. This is one of the processes that lead to a Black Hole's demise.
Gamma rays are the most energetic form of electromagnetic radiation. In terms of pure energy levels, only certain exotic astrophysical phenomena, like supernovae or black hole mergers, can produce more powerful radiation than gamma rays.
Yes, all high energy types. The intensity of each ray depends on the type of black hole. Ultraviolet, X-ray, Gamma
Gamma rays are created through various processes in the universe, such as supernova explosions, black hole activity, and interactions of high-energy particles with matter or antimatter. These energetic events release gamma rays as the most powerful and highest-energy form of electromagnetic radiation. Scientists study gamma rays to understand these extreme phenomena and their impact on the universe.
Gamma rays can pretty much travel through anything because of their speed,and intense hotness.There is only 1 thing in the universe that a gamma ray cannot go through, and that is a black hole.Black holes have such an amazing gravitational pull that the black hole would just suck up the light.
In an indirect way, yes. Gama rays are the highest-intensity form of electromagnetic energy. They usually indicate a very power energy source. Most black holes are formed by exploding stars called supernovas. These events can be detected as gamma ray bursts.
Gamma rays are gamma rays are gamma rays.
Scientists can detect black holes by using x-rays and gamma rays. Black holes still can release matter, and black holes give off a lot off x and gamma rays.
It happens when two gamma rays come from different stars and collide and make a big explosion . A gamma ray burst is when two gamma rays come from different stars and collide and make a big explosion. BOOM