Is the LaGrangian tautological?

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The discussion centers on the challenge of determining kinetic (T) and potential (V) energies in the context of the Lagrangian formulation, expressed as L=T-V. It highlights a circular reasoning issue, as equations of motion are needed to derive T and V, which in turn rely on those equations. The conversation extends to field theory, questioning how T and V are identified when applying the Lagrangian definition. It is suggested that the selection of a Lagrangian is empirical, based on its ability to produce equations of motion that align with observed phenomena. The formulation emphasizes that forces are not integral to the "pure" Lagrangian approach, with kinetic and potential energies derived from empirical observations.
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This issue has always bothered me, and I would like to hear a logical resolution. The classical prescription for finding it is L=T-V. From the LaGrangian, the equations are motion are then deduced using the Euler-LaGrange eqs. But - the equations are motion are required in order to determine T and V, since they (eqs. of motion) are necessary to determine the forces, which will be used to calculate T and V. So it looks like a big circle to me ?

Also, when applied to field theory (classical or quantized) how do you identify T and V, if you want to use the basic definition L=T-V?
 
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I would say it is empirical rather than tautological. You use a given Lagrangian because it gives equations of motion that match what is observed empirically.
 
No, forces are not used in the "pure" Lagrangian formulation. Kinetic energies are obtained directly via T= \frac {m v^2} {2} in whatever coordinate systems employed, potential energies are considered given empirically.
 

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