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Published online by Cambridge University Press: 05 June 2012
CHAPTER OVERVIEW
Chapter 1 set the stage for the rest of the book: it reviewed Newton's equations and the basic concepts of Newton's formulation of mechanics. The discussion in that chapter was applied mostly to dynamical systems whose arena of motion is Euclidean three-dimensional space, in which it is natural to use Cartesian coordinates. However, we referred on occasion to other situations, such as one-dimensional systems in which a particle is not free to move in Euclidean 3-space but only in a restricted region of it. Such a system is said to be constrained: its arena of motion, or, as we shall define below, its configuration manifold, turns out in general to be neither Euclidean nor three dimensional (nor 3N-dimensional, if there are N particles involved). In such cases the equations of motion must include information about the forces that give rise to the constraints.
In this chapter we show how the equations of motion can be rewritten in the appropriate configuration manifold in such a way that the constraints are taken into account from the outset. The result is the Lagrangian formulation of dynamics (the equations of motion are then called Lagrange's equations). We should emphasize that the physical content of Lagrange's equations is the same as that of Newton's. But in addition to being logically more appealing, Lagrange's formulation has several important advantages.
Perhaps the first evident advantage is that the Lagrangian formulation is easier to apply to dynamical systems other than the simplest.
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