History[change | change source]
For a long time bodies in the sky seemed to be unchanging spheres moving in a circle. But on Earth growth and decay happened, and natural motion was in a straight line. Therefore, people thought the celestial region was made of a fundamentally different kind of matter from that found on Earth.
During the 16th and 17th century, natural philosophers such as Nicolaus Copernicus, Johannes Kepler, Galileo, Descartes, and Newton, began to maintain that the celestial and terrestrial regions were made of similar kinds of material and were subject to the same natural laws.
When they were able to work out how the planets moved, the science of astrophysics was born. Sir Isaac Newton realized that the same rules of mechanics that he had found on the surface of the Earth also could be used to predict how the planets moved. He said, "As above, so below." By this, he meant that we can study how things work on this planet to find out how things work in space.
Later scientists found that by looking at the light from stars, they were able to work out what they were made from. This process is called spectroscopy.
Types of astrophysics[change | change source]
There are two main types of astrophysics:
- Observational astrophysics is like astronomy. Like astronomers, observational astrophysicists use telescopes to study the Universe, but observational astrophysicists study the physics of what they see to explain the Universe.
- Theoretical astrophysics uses information from astronomers, theories and mathematics to explain how the Universe works. Cosmology is a type of theoretical astrophysics. Problems investigated include:
- Solar System formation and evolution
- Star formation and evolution
- Galaxy formation and evolution
- large-scale structure of matter in the universe
- Origin of cosmic rays
- General relativity
- Evolution of the universe
- Hydrodynamics is used for mathematically modelling how gases behave. Strong magnetic fields found around many bodies can drastically change how these gases behave, affecting things from star formation to the flows of gases around compact stars. This makes MHD an important and useful tool.
Other fields[change | change source]
Related pages[change | change source]
References[change | change source]
- Galilei, Galileo (1989), Van Helden, Albert (ed.), Sidereus Nuncius or The Sidereal Messenger, Chicago: University of Chicago Press, pp. 21, 47, ISBN 0-226-27903-0
- Edward Slowik (2013) . "Descartes' Physics". Stanford Encyclopedia of Philosophy. Retrieved 2015-07-18. CS1 maint: discouraged parameter (link)
- Westfall, Richard S. 1980, Never at rest: a biography of Isaac Newton, Cambridge: Cambridge University Press, pp. 731–732, ISBN 0-521-27435-4
- Burtt, Edwin Arthur  2003. The metaphysical foundations of modern science . 2nd ed, Mineola, NY: Dover, pp. 30, 41, 241–2. ISBN 9780486425511