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equations:einstein_equation [2018/03/26 16:35]
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equations:einstein_equation [2018/12/19 11:00] (current)
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-====== Einstein Equation: ​\quad G_{\mu \nu} = 8 \pi G T_{\mu \nu}$ ======+<WRAP lag>$ G_{\mu \nu} = 8 \pi G T_{\mu \nu}$</​WRAP>​
  
 +====== Einstein Equation ​ ======
  
-<tabbox Why is it interesting?> ​+//see also [[models:​general_relativity]] //
  
-The Einstien equation is the fundamental equation of general relativity. It describes how spacetime is curved through the presence of matter and energy. 
  
-<​tabbox ​Layman+<​tabbox ​Intuitive 
 + 
 +Einstein'​s equation describes how spacetime gets curved through mass and energy.  
 + 
 +-----
  
  
   * [[http://​jakobschwichtenberg.com/​how-to-invent-general-relativity/​|How to Invent General Relativity]] by J. Schwichtenberg ​   * [[http://​jakobschwichtenberg.com/​how-to-invent-general-relativity/​|How to Invent General Relativity]] by J. Schwichtenberg ​
   ​   ​
-<​tabbox ​Student+<​tabbox ​Concrete
  
   * [[http://​math.ucr.edu/​home/​baez/​einstein/​einstein.pdf|The Meaning of Einstein’s Equation]] by John C. Baez and Emory F. Bunn explains the Einstein equations perfectly. ​   * [[http://​math.ucr.edu/​home/​baez/​einstein/​einstein.pdf|The Meaning of Einstein’s Equation]] by John C. Baez and Emory F. Bunn explains the Einstein equations perfectly. ​
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 ---- ----
  
-The static limit of the Einstein equation is known as [[equations:​newtons_law|Newton'​s law]]. ​+The static limit of the Einstein equation is known as [[formulas:​newtons_law|Newton'​s law]]. ​
  
-<​tabbox ​Researcher+<​tabbox ​Abstract
  
 <note tip> <note tip>
 The motto in this section is: //the higher the level of abstraction,​ the better//. The motto in this section is: //the higher the level of abstraction,​ the better//.
 </​note>​ </​note>​
 +
 +<tabbox Why is it interesting?> ​
 +
 +The Einstein equation is the fundamental equation of general relativity. It describes how spacetime is curved through the presence of matter and energy.
  
 <tabbox Definitions>​ <tabbox Definitions>​
  
-Definitions#​+
 On the __right-hand side__, Newton'​s gravitational constant $G$, the speed of light $c$ and the stress-energy tensor $T_{\mu \nu}$. On the __right-hand side__, Newton'​s gravitational constant $G$, the speed of light $c$ and the stress-energy tensor $T_{\mu \nu}$.
  
equations/einstein_equation.1522074924.txt.gz · Last modified: 2018/03/26 14:35 (external edit)