Since visible light travels @ 280,000 miles per second, do Gamma particles exceed that speed to reach escape velocity when ejected from the poles of the singularity within a black sphere? (they're not really "holes").
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No, the gamma particles never exceed the speed of light, not to mention the fact that gamma particles are light in the first place. Don't listen to oklatonola, it has nothing to do with wave-particle duality. I have no idea where she got that idea or why she felt the need to post a bunch of links about it.
There is a huge misconception that anything anywhere near a black hole must travel faster than the speed of light to get away from it. This however, is false. A particle must only travel faster than the speed of light to get away if it is inside the black hole (ie. inside the event horizon). Outside of that horizon, the particle can easily escape if it is going fast enough (but not faster than the speed of light).
The gamma particles that we see from black holes, were never inside the black hole, or even emitted by the black hole. They are actually emitted by matter in the process of falling into black holes. As you mentioned we see them ejected at the poles. The reason for this is that a lot of matter tends to get sucked into and shot out of the poles due to the black hole's magnetic field.
To put it simply, matter falls towards the black hole (but doesn't enter it). In the process it emits gamma radiation. That radiation gets carried to the poles by the magnetic fields. The magnetic fields shoot it out. At no point did the particle go into the black hole or travel faster than light.
There is a huge misconception that anything anywhere near a black hole must travel faster than the speed of light to get away from it. This however, is false. A particle must only travel faster than the speed of light to get away if it is inside the black hole (ie. inside the event horizon). Outside of that horizon, the particle can easily escape if it is going fast enough (but not faster than the speed of light).
The gamma particles that we see from black holes, were never inside the black hole, or even emitted by the black hole. They are actually emitted by matter in the process of falling into black holes. As you mentioned we see them ejected at the poles. The reason for this is that a lot of matter tends to get sucked into and shot out of the poles due to the black hole's magnetic field.
To put it simply, matter falls towards the black hole (but doesn't enter it). In the process it emits gamma radiation. That radiation gets carried to the poles by the magnetic fields. The magnetic fields shoot it out. At no point did the particle go into the black hole or travel faster than light.
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Gamma rays are electromagnetic rays, not particles.
The speed of light is 186,000 miles per second, not 280,000.
Black holes exist only in somebody's imagination. The basis of the theory is an assumption that a body can collapse under its own gravitation. One exercise in PHYSICS 101 is to integrate the gravitation inside a sphere. If it is hollow there is no net gravitation anywhere inside. If it is solid then gravitation gets lower as you approach the center, and at the center it is zero. In real life gravitation depends a lot on the density of rocks and materials nearby, and also on centrifugal force as the body rotates. So the foundational assumption of the black hole is nonsense.
The speed of light is 186,000 miles per second, not 280,000.
Black holes exist only in somebody's imagination. The basis of the theory is an assumption that a body can collapse under its own gravitation. One exercise in PHYSICS 101 is to integrate the gravitation inside a sphere. If it is hollow there is no net gravitation anywhere inside. If it is solid then gravitation gets lower as you approach the center, and at the center it is zero. In real life gravitation depends a lot on the density of rocks and materials nearby, and also on centrifugal force as the body rotates. So the foundational assumption of the black hole is nonsense.
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