Difference between revisions of "Physics"

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[[Image:HistSciTechHome.jpg|right|"History of Science and Technology"]]
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'''Physics''' embodies the study of the fundamental constituents of the [[universe]], the [[forces]] and interactions they exert on one another, and the results produced by these interactions. In general, the physics is regarded as the fundamental science as all other natural sciences utilize and obey the principles and laws set down by the field. Physics relies heavily on [[mathematics]] as the logical framework for formulation and quantification of principles.  
 
'''Physics''' embodies the study of the fundamental constituents of the [[universe]], the [[forces]] and interactions they exert on one another, and the results produced by these interactions. In general, the physics is regarded as the fundamental science as all other natural sciences utilize and obey the principles and laws set down by the field. Physics relies heavily on [[mathematics]] as the logical framework for formulation and quantification of principles.  
  
 
The study of the principles of the universe has a long history and largely derives from direct observation and experimentation. The formulation of theories about the governing laws of the universe has been central to the study of physics from very early on, with [[philosophy]] gradually yielding to systematic, quantitative experimental testing and observation as the source of verification. Key historical developments in physics include [[Isaac Newton]]'s [[Law of universal gravitation|theory of universal gravitation]] and [[classical mechanics]], an understanding of [[electricity]] and it's relation to [[magnetism]], [[Albert Einstein|Einstein]]'s theories of [[special relativity|special]] and [[general relativity]], the development of [[thermodynamics]], and the [[quantum mechanics|quantum mechanical]] model of atomic and subatomic physics.
 
The study of the principles of the universe has a long history and largely derives from direct observation and experimentation. The formulation of theories about the governing laws of the universe has been central to the study of physics from very early on, with [[philosophy]] gradually yielding to systematic, quantitative experimental testing and observation as the source of verification. Key historical developments in physics include [[Isaac Newton]]'s [[Law of universal gravitation|theory of universal gravitation]] and [[classical mechanics]], an understanding of [[electricity]] and it's relation to [[magnetism]], [[Albert Einstein|Einstein]]'s theories of [[special relativity|special]] and [[general relativity]], the development of [[thermodynamics]], and the [[quantum mechanics|quantum mechanical]] model of atomic and subatomic physics.
 
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<center>For lessons on the [[topic]] of '''''Physics''''', follow [https://nordan.daynal.org/wiki/index.php?title=Category:Physics/TeaM '''''this link'''''].</center>
The field of physics is extremely broad, and can include such diverse studies as [[quantum mechanics]] and [[theoretical physics]] to [[applied physics]] and [[optics]]. Modern physics is becoming increasingly specialized, where researchers tend to focus on a particular area rather than being "universalists" like [[Albert Einstein]] and [[Lev Landau]], who worked in multiple areas.
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The field of physics is extremely broad, and can include such diverse studies as [[quantum mechanics]] and [[theoretical physics]] to [[applied physics]] and [[optics]]. Modern physics is becoming increasingly specialized, where researchers tend to focus on a particular area rather than being "universalists" like [[Albert Einstein]] and [[Lev Landau]], who worked in multiple areas.[https://en.wikipedia.org/wiki/Physics]
  
 
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[[Category: Physics]]

Latest revision as of 02:36, 13 December 2020

Lighterstill.jpg

"Elemental Structure"

Physics embodies the study of the fundamental constituents of the universe, the forces and interactions they exert on one another, and the results produced by these interactions. In general, the physics is regarded as the fundamental science as all other natural sciences utilize and obey the principles and laws set down by the field. Physics relies heavily on mathematics as the logical framework for formulation and quantification of principles.

The study of the principles of the universe has a long history and largely derives from direct observation and experimentation. The formulation of theories about the governing laws of the universe has been central to the study of physics from very early on, with philosophy gradually yielding to systematic, quantitative experimental testing and observation as the source of verification. Key historical developments in physics include Isaac Newton's theory of universal gravitation and classical mechanics, an understanding of electricity and it's relation to magnetism, Einstein's theories of special and general relativity, the development of thermodynamics, and the quantum mechanical model of atomic and subatomic physics.

For lessons on the topic of Physics, follow this link.

The field of physics is extremely broad, and can include such diverse studies as quantum mechanics and theoretical physics to applied physics and optics. Modern physics is becoming increasingly specialized, where researchers tend to focus on a particular area rather than being "universalists" like Albert Einstein and Lev Landau, who worked in multiple areas.[1]