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Originally Posted by Bob Angstrom
An object falling into a black hole reaches the speed of light as it crosses the event horizon. The event horizon is a calculated point. It is not a solid surface so there is nothing to stop a falling object from reaching the speed of light.
The acceleration of an object causes the object’s time to slow so increasing forward speed slows the internal vibrations of the object.
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The problem of the Event Horizon of a Black Hole is not solved yet.
We suppose the Black Hole exists.
We suppose that an object fallig into BH become as fast as the light.
We know that particle with a rest mass can't move with speed of light.
For a distant observer the object at the Event Horizon slows down - less velocity, less energy.
We observe the accretion disk around the BH - there are very fast moving particles. If it is very close to Event Horizon they move as fast as the light almost. This particles emit the X-rays.
Scientist explain that this very fast energetic particles interact with CMBR photons and due to Comptons scattering this gravitational energy is transformed into kinetic and thermal energy.
According to LQG and Heim theory gains the relativistic particle the energy from the interaction with the space structure.
Faster particle - higher frequency - more virtual paticles.
The speed of light is possible for a simple wave only.
The wave structures as particle with a rest mass can't reach the speed of light.