Why theory of relativity fails in black hole ?
Does this calls for a new theory ??
Answers
Answer:
General relativity (GR), also known as the General Theory of Relativity, is the geometric theory of gravity published by Albert Einstein in 1915. GR generalizes Einstein’s special relativity and Newton’s law of universal gravitation, providing a unified description of gravity as a geometric property of space and time (or spacetime). In particular, the curvature of spacetime is directly related to the mass, momentum, and energy of the matter and/or radiation, according to the Einstein field equations.
Despite being over 100 years old, GR represents the current description of gravitation in modern physics. In fact, the predictions of GR have been extremely well tested in the “local” universe, both in the weak field limit (as in the Solar System) and more recently for strongly self-gravitating bodies in pulsar binary systems. The first test of GR was the Eddington’s solar eclipse expedition of 1919 by Eddington, and remarkably GR has successfully passed all tests carried out so far. Nevertheless, gravity in its GR description remains the least understood of all forces, e.g., resisting unification with quantum physics. In fact, GR assumes a classical description of matter that completely fails at the subatomic scales which govern the early Universe. Therefore, despite the fact that GR represents the most successful theory of gravity to date, it is expected to break down at the smallest scales.
Answer:
this surely calls for a new theory...
Explanation: