Finding Holes in the Universe
In the deep vacuum of space there are stars, meteors, and other sorts of derbis. Across the universe there are stars that end up dying and collapse upon themselves from their own gravity. The collapse of a massive star can cause a catastrophic event considered a supernova and if the mass of the star is compressed into the singularity of the star, it then creates a black hole. A cone-like void that allows no light to escape from its event horizon. Now the matter with black holes is that there is no obvious way to find the location of a black hole. Although the detection of black holes can be done by the distortion of gravity, x-rays, as well as the collapse of massive stars.
The action and reaction to the absence of gravity and the presence of gravity can be a great method on figuring out the location of a black hole by comparing the outter space in which “the external field is a vacuum gravitational field, due to a large black hole for example, then the background space‐time is a non‐flat solution of Einstein's vacuum field equations.”. (Hideki 81) By finding the non-flat solution of Einstein’s vacuum field equations you would be able to “model a small charged black hole moving in external gravitational and electromagnetic fields”, which is also a solution of Einstein’s vacuum field equations (81). Being able to link the two equations you would be able to detect a black hole.
The action and reaction to the absence of gravity and the presence of gravity can be a great method on figuring out the location of a black hole by comparing the outter space in which “the external field is a vacuum gravitational field, due to a large black hole for example, then the background space‐time is a non‐flat solution of Einstein's vacuum field equations.”. (Hideki 81) By finding the non-flat solution of Einstein’s vacuum field equations you would be able to “model a small charged black hole moving in external gravitational and electromagnetic fields”, which is also a solution of Einstein’s vacuum field equations (81). Being able to link the two equations you would be able to detect a black hole.
But before the analysis for a black hole can even begin, one must exist or be assumed to exist. A way that a black hole may appear in the universe is from the black hole’s former appearance, a massive star. For every star there is birth and then there is death, and to form a black hole, the massive star must come to it’s death. The death of a massive star can go either way, but it all depends on the overall mass of the components from the star itself. If the mass of the star is estimated to be around ten times the mass of the sun then the massive star will cool as it’s size will shrink but it will keep the amount of mass that it had before cooling down. Now if the massive star were to hold a mass greater than ten times the mass of the sun, then the star would have no other choice but to succumb to the pull of gravity and collapse on itself to create a black hole.
In a case where small stars have disappeared and space debris have been swept up from outer space by a black hole on the move is to make an observation on the various amounts of radiation spurted from out of the black hole. For example, as material from outer space travels near toward a black holes horizon line, the object begins to distort and is slowly pulled into the center where no light escapes. When the material finally enters the black hole after the horizon line, the object is heated by the intense temperatures of over one million Kelvin. As the material accelerates within the black hole, it is superheated to generate x-ray which are then emitted from the black hole and left behind the trail of the black hole.
As the universe continues to age, so will the stars. For when the stars collapse or disappear from the universe, there are ways to find the culprits behind the destruction, black holes. Whether it is through the distortion and contraction of two different gravitational pulls existing on one solar plane, or through the detection of abstract pulses and bursts of radiation. It can even be from the death of one of many massive stars that lies upon the night sky.
As the universe continues to age, so will the stars. For when the stars collapse or disappear from the universe, there are ways to find the culprits behind the destruction, black holes. Whether it is through the distortion and contraction of two different gravitational pulls existing on one solar plane, or through the detection of abstract pulses and bursts of radiation. It can even be from the death of one of many massive stars that lies upon the night sky.
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