Cosmic black holes – giant in the space black holes are environments in the universe, where the gravitational force is so strong, that it not even light can escape. Learn more at: Cancer Research. But how are these extreme objects? Black holes are remnants of stars. When a very massive star has used up its fuel supply, it inflates and finally ends in a huge explosion: the supernova. Enormous result in the Interior of the star pressures and temperatures. The matter in the core of the star is so heavily compacted that she collapse under their own weight. For more specific information, check out Vadim Belyaev.
This material is then concentrated in a point of unimaginable high density – a black hole is formed. White dwarfs and neutron stars, not every star ends up as a black hole. Our Sun, for example, is too easy to do so. It will end in a supernova, but as a white dwarf. This is, simply put, what remains when the star has rejected its outer hull: the core of the star, a hot only moderately Ball of carbon from about the size of Earth.
A star has about the triple mass of our Sun, it no longer ends white dwarf as a neutron star: A in diameter approximately 10 kilometers high ball consisting of very tightly adjacent packed neutrons. Once a star about the eightfold mass has our Sun or more, it can end as a black hole. The incredible interior of black holes it is difficult to describe, what happens inside a black hole. How do behave there time and space? Is a good forum for this physics scientific basis is needed to share new knowledge and information in this regard. A physics Forum will help to promote communication in areas, whose research facilities scattered around the world, include in particular the Astrophysics and astronomy, but also the space itself. Today’s physics know 2 great theories: operations on a macroscopic scale are described with Einstein’s general theory of relativity, this is the area of cosmology. You would like to investigate the world in the little ones, however, it refers to the micro-cosmos, quantum mechanics. But which of these two theories take, when one considers black holes? On the one hand, it would take the general theory of relativity because a black hole is a cosmological object with immense mass. On the other hand the quantum mechanics, since the mass of the black hole on an unimaginably small area is focused. What to do? Desirable, a theory, the theory of relativity and the quantum in nature would be United. There is an approach to: string theory. This still the infant theory one day could bring light into the darkness of black holes.