Website for Classical Mechanics

AI Thread Summary
Several users recommend searching online for websites that provide solved problems in Lagrange Mechanics, specifically referencing Herbert Goldstein's "Classical Mechanics." They suggest that many universities offer valuable resources, including lecture notes and problem sets. A link to a specific set of notes from Wilfrid Laurier University is shared, along with another from the University of Oxford. The discussion emphasizes the availability of academic resources online for those studying classical mechanics. Overall, users encourage leveraging university materials and online searches for effective learning.
pitbull
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Do you guys know of any website that has solved problems of Lagrange Mechanics?
 
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Herbert Goldstein, Classical Mechanics (Addison Wesley, 2001) :)

Or Google around.

I wonder what book :) https://www.wlu.ca/documents/53853/NotesCh8.pdf guys (in place 1) refer to.

Plenty universities have stuff online. http://www.physics.ox.ac.uk/Users/Yassin/mechanics/notes/note5aplusb_2011_v0.pdf looks good.
 
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BvU said:
Herbert Goldstein, Classical Mechanics (Addison Wesley, 2001) :)

Or Google around.

I wonder what book :) https://www.wlu.ca/documents/53853/NotesCh8.pdf guys (in place 1) refer to.

Plenty universities have stuff online. http://www.physics.ox.ac.uk/Users/Yassin/mechanics/notes/note5aplusb_2011_v0.pdf looks good.

Thanks :bow: :bow: :bow:
 
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Thread 'Derivation of Hamilton's Principle: Questions'

I have recently been really interested in the derivation of Hamiltons Principle. On my research I found that with the term ##m \cdot \frac{d}{dt} (\frac{dr}{dt} \cdot \delta r) = 0## (1) one may derivate ##\delta \int (T - V) dt = 0## (2). The derivation itself I understood quiet good, but what I don't understand is where the equation (1) came from, because in my research it was just given and not derived from anywhere. Does anybody know where (1) comes from or why from it the...
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