Computational astrophysics related to black holes and dark matter
Keywords:
Computational Astrophysics, dark energy, dark matter, cosmological scales, galactic, baryonic matter, accretion disk, Observable universe, supernovasAbstract
This paper gives a brief analysis on computational astrophysics, how it is related to black holes and dark matter, experimental evidence on the same and their theory. Computational astrophysics is a very important topic in astrophysics, because in the near future we will rely a lot on simulations using the laws of physics and maths to find out what will happen in the unknown places of the universe. Knowing about black holes and dark matter will help by understanding the connections of general relativity and quantum mechanics which helps understand the universe's behaviour. This paper's research was conducted through looking at other papers and many other sites related to this topic. While researching on this topic I found out the connections between black holes, dark matter and computational astrophysics. I further looked into the evidence of black holes and dark matter to understand their connections. My understanding is that these are the future of astrophysics so it deserves more time and attention as these topics are going to be extremely helpful to learn about.
References
https://www.cfa.harvard.edu/index.php/research/science-field/computational-astrophysics
https://iopscience.iop.org/book/mono/978-0-7503-1320-9/chapter/bk978-0-7503-1320-9ch1
https://www.su.se/english/research/research-catalogue/sub-subjects/d/computational-astrophysics
https://www6.slac.stanford.edu/topics/computational-astrophysics
https://news.yale.edu/2021/12/16/black-holes-and-dark-matter-are-they-one-and-same
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