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A wal
  • A wal
  • Cambridge
  • United Kingdom

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The Proper Theory Of Relativity

Everything below is based on a new fundamental law that I figured out. If you reverse everything within a system then relativity everything stays exactly the same unless it's viewed from an external frame of reference. The curved space-time caused by gravity in the general theory of relativity also applies to ordinary acceleration. There is absolutely no difference between an object following a straight line in curved space-time and an object following a curved path in flat space-time. Gravity creates inwards curvature´╗┐ which pulls all masses towards each other, rather than conventional acceleration caused by outwards curvature. Gravity is a force of mass rather than energy which is why it's so much weaker than electro-magnetism.

The reason why General Relativity and Quantum Mechanics don't work together is because General Relativity's wrong. Singularities are not places where the laws of relativity break down. They're places that the laws of relativity prevent from ever being reached. A black hole is a four dimensional bubble of space-time, with the event horizon representing the physical boundary imposed by the speed of light that increases size the more space-time´╗┐ there is between the it and the observer. The concept of curved space-time hasn't been applied correctly and the result is a description of gravity that treats falling objects as equivalent to objects at rest in the sense that a falling object isn't under the influence of a force. This leads to objects being able to accelerate beyond a relative velocity of the speed of light when the pass the event horizon of a black hole, which is impossible.

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    A wal

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    Oct 10 2012: ...
    Black Hole Geometry
    When a black hole forms it expands outwards at the speed of light until it's reached its maximum size and then immediately contracts inwards at the speed of light creating a four dimensional sphere. Information moves at the speed of light as well so an observer would see it appear at its full size and then rush inwards. It's size in all four dimensions increases as the distance of an observer increases, and at an ever decreasing rate the further away the observer. At zero distance the black hole has no size at all. A singularity is a point in time and space and so can never be reached by an object, even one accelerating towards it because the closer an object gets, the smaller it is. A black hole is just what a singularity looks like from a distance as length contraction and time dilation decrease.

    Horizons
    When an object is observed free-falling towards a black hole it becomes more length contracted and time dilated as it's relative velocity increases in exactly the same way as an object accelerating away using energy, and light from an ever decreasing distance will never reach them as long as they keep accelerating at at least the same rate in the same way as the Rindler horizon approaches an accelerator if their acceleration increase. If an object were able to reach an event horizon then light from behind it would start from in front of it as the two horizons cross over, in exactly the same way that a Rindler horizon and light emitted from the front of an accelerator would cross over if it were able to accelerate to a relative velocity of c.

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