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k.aqwert
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http://nuclear.ucdavis.edu/~tgutierr/files/sml2.pdf
Where is the = sign in this equation? Does it have one?
Where is the = sign in this equation? Does it have one?
Question about the standard model equation
- Thread starter k.aqwert
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In summary, The conversation discusses a Lagrangian equation and the lack of an equality sign. The speaker suggests adding a script L symbol and an equal sign to make it an equation. They also reference a book by Martinus Veltman for further understanding.
- #2
naima
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A lagrangian is not an equality.
- #3
Bill_K
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Please memorize this for the final. 
- #4
naima
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I think he just have now to elaborate several details.
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jtbell
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k.aqwert said:
It's not an equation. To make it an equation, put a script L [the usual symbol for Lagrangian] and an = sign in front of it.
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Hans de Vries
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A useful overview of the terms is given in.
Diagrammatica: the path to Feynman diagrams
by Martinus Veltman in appendix E.
http://books.google.nl/books?id=Dzb92Y3GZ1oC&printsec=frontcover#v=onepage&q&f=false
From page 249 an onwards.Regards, Hans
Diagrammatica: the path to Feynman diagrams
by Martinus Veltman in appendix E.
http://books.google.nl/books?id=Dzb92Y3GZ1oC&printsec=frontcover#v=onepage&q&f=false
From page 249 an onwards.Regards, Hans
1. What is the standard model equation?
The standard model equation is a mathematical formula that describes the fundamental building blocks of matter and the forces that govern their interactions. It is a combination of quantum mechanics and special relativity and has been highly successful in predicting and explaining the behavior of elementary particles.
2. What are the components of the standard model equation?
The standard model equation includes the fundamental particles of matter, such as quarks and leptons, as well as the fundamental forces of nature, including the strong, weak, and electromagnetic forces. It also incorporates the Higgs boson, which gives particles mass.
3. How was the standard model equation developed?
The standard model equation was developed through years of experimental observations and theoretical calculations by multiple scientists. It was first proposed in the 1960s and has since been refined and tested through numerous experiments, including those at the Large Hadron Collider.
4. What are the limitations of the standard model equation?
The standard model equation does not incorporate gravity, and therefore cannot fully explain the behavior of the universe at a large scale. It also does not provide an explanation for dark matter, which makes up a significant portion of the universe's mass.
5. How does the standard model equation impact our understanding of the universe?
The standard model equation has greatly advanced our understanding of the fundamental particles and forces that make up the universe. It has also provided a framework for scientists to continue exploring and discovering new particles and interactions. However, it is not a complete theory and there is ongoing research to expand and improve upon it.
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