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by Cleonis
1654 days ago
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You mention stationary action. Interestingly, F=ma and Hamilton's stationary action are mutually derivable. The usual presentation is to show that Hamilton's stationary action implies the newtonian formulation. Interestingly, it is also possible to start with F=ma, and move in all forward steps to Hamilton's stationary action. No additional assumptions are required. I created a series of interactive diagrams to make Hamilton's stationary action entirely transparent. http://www.cleonis.nl/physics/phys256/energy_position_equati... (Of course, quantum mechanics is the overall deeper theory; we assume
that classical mechanics holds good because classical mechanics is a
limiting case of quantum mechanics; at scales large enough that quantum
effects average out the outcome in terms of quantum mechanics converges onto
the outcome in terms of classical mechanics.) |
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