Difference between revisions of "Tensor"
From MgmtWiki
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==Full Title or Meme== | ==Full Title or Meme== | ||
“[[Tensor]]s are the most efficient packaging device we have to organize our equations. They’re the natural language for geometric objects.” - Dionysios Anninos, a theoretical physicist at King’s College London<ref>Joseph Howlett, ''The Geometric Tool That Solved Einstein’s Relativity Problem'' Quanta (2024-08-12) https://www.quantamagazine.org/the-geometric-tool-that-solved-einsteins-relativity-problem-20240812/</ref> | “[[Tensor]]s are the most efficient packaging device we have to organize our equations. They’re the natural language for geometric objects.” - Dionysios Anninos, a theoretical physicist at King’s College London<ref>Joseph Howlett, ''The Geometric Tool That Solved Einstein’s Relativity Problem'' Quanta (2024-08-12) https://www.quantamagazine.org/the-geometric-tool-that-solved-einsteins-relativity-problem-20240812/</ref> | ||
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| + | ==Context== | ||
| + | * See the wiki page on [[Matrix Calculation]] for ideas about where [[Tensor]]s work. | ||
==References== | ==References== | ||
[[Category: Mathematics]] | [[Category: Mathematics]] | ||
Revision as of 13:23, 16 August 2024
Full Title or Meme
“Tensors are the most efficient packaging device we have to organize our equations. They’re the natural language for geometric objects.” - Dionysios Anninos, a theoretical physicist at King’s College London[1]
Context
- See the wiki page on Matrix Calculation for ideas about where Tensors work.
References
- ↑ Joseph Howlett, The Geometric Tool That Solved Einstein’s Relativity Problem Quanta (2024-08-12) https://www.quantamagazine.org/the-geometric-tool-that-solved-einsteins-relativity-problem-20240812/
