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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: Short version:

    Introduction
    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 general theory of relativity introduces the concept of curved space-time, which basically means viewing motion as a change in the distances between objects rather than movement of the objects themselves. There is absolutely no difference between following a curved path in flat space-time and following a straight line in curved space-time. The reason why quantum mechanics and general relativity are incompatible is because general relativity doesn't treat them as physically equivalent. It describes a free-falling object as the equivalent of an inertial object because the force is acting on the space-time that the object is moving through instead of the object itself. This is incorrect. Length contraction and time dilation also change the space-time that objects are moving through when they accelerate in the conventional sense and this can be used to explain the force they feel as the difference in the curvature of space-time that the different parts of the objects are moving through in the same way that general relativity describes tidal force. Massive objects cause inwards curvature, making them gravitate towards each other, while energy causes outwards curvature, making objects move away the the source. Energy equals mass times the speed of light squared, so gravity is that much weaker.
    • Oct 16 2012: Hi, A wal !
      The real difficulty we have in understanding space on the material level is due to the fact that, while material bodies exist in space, space also exists in these same material bodies.
      Taking into consideration that an atom is 99. 9999...% empty space , an object, no matter how big is separated from ' outer' space by a thin vernier , it's more like an image; space carries images, not objects move in the space. Would you agree that the idea of ' unbroken wholeness ' holds the key to the Theory of Everything ?

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