Notes for AKT-140110/0:39:54: Difference between revisions
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I found this link about the Lagrangian: [http://www.feynmanlectures.caltech.edu/II_19.html], and it talks about '''The Principle of Least Action''' which says that the path that has the minimum action is the one satisfying Newton's law for a conservative system which is the famous <math>F = ma</math>. |
I found this link about the Lagrangian: [http://www.feynmanlectures.caltech.edu/II_19.html], and it talks about '''The Principle of Least Action''' which says that the path that has the minimum action is the one satisfying Newton's law for a conservative system which is the famous <math>F = ma</math>, where <math>m</math> is the mass of the system and <math>a</math> is the acceleration of the system with respect to the total force on the system. |
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Latest revision as of 01:16, 4 June 2018
I found this link about the Lagrangian: [1], and it talks about The Principle of Least Action which says that the path that has the minimum action is the one satisfying Newton's law for a conservative system which is the famous , where is the mass of the system and is the acceleration of the system with respect to the total force on the system.
