Jacobi principle
principle of stationary action
An integral variational principle in mechanics that was established by C.G.J. Jacobi [1] for holonomic conservative systems. According to the Jacobi principle, if the initial position 
and the final position 
of a holonomic conservative system are given, then for the actual motion the Jacobi action
 |
has a stationary value in comparison with all other infinitely-near motions between 
and 
with the same constant value 
of the energy as in the actual motion. Here 
is the force function of the active forces on the system, and 
are the generalized Lagrange coordinates of the system, whose kinetic energy is
 |
Jacobi proved (see [1]) that if 
and 
are sufficiently near to one another, then for the actual motion the action 
has a minimum. The Jacobi principle reduces the problem of determining the actual trajectory of a holonomic conservative system to the geometrical problem of finding, in a Riemannian space with the metric
 |
an extremal of the variational problem.
See also Variational principles of classical mechanics.
References
| [1] | C.G.J. Jacobi, "Vorlesungen über Dynamik" , G. Reimer (1884) |
Comments
References
| [a1] | V.I. Arnol'd, "Mathematical methods of classical mechanics" , Springer (1978) (Translated from Russian) |
Jacobi principle. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Jacobi_principle&oldid=32721