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IssuesArchive of Issues2003-2pp.13-18

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A. V. Didin, "On the mechanics in N-space," Mech. Solids. 38 (2), 13-18 (2003)
Year 2003 Volume 38 Number 2 Pages 13-18
Title On the mechanics in N-space
Author(s) A. V. Didin (Korolev)
Abstract The classical mechanics has been being created for 3-space, which is a particular case of N-space. As a consequence, a number of basic concepts of the classical mechanics such as angular momentum, moment of force, tensor of inertia, and angular velocity have been associated with inadequate mathematical objects. In the author's opinion, it is just for that reason that the classical mechanics has been displaced from a number of fields by other theories. In particular, the definitions of angular momentum, moment of force, tensor of inertia, and angular velocity are known to depend on the dimension of the space. For example, the angular momentum is a pseudovector in 3-space and a number in 2-space; the tensor of inertia is a tensor in 3-space and a number in 2-space. Therefore, one may not carry over properties of these objects established in a space of a certain dimension straightforwardly to spaces of other dimensions, since these objects have different mathematical nature in spaces of different dimension and, hence, different physical interpretations. It turns out that one can redefine these concepts to make them independent of the space dimension. This enables one to apply laws involving these concepts to subspaces of N-space having an arbitrary dimension, irrespective of N. In addition, such an approach allowed one to establish new properties of the angular momentum.

The aim of the present paper is to clarify the physical meaning and properties of the concepts of the classical mechanics on the basis of a simple body of mathematics known to scientists and engineers.

To avoid misunderstanding, we choose to define or explain by specific examples all terms that will be used in what follows and that can be interpreted inadequately when applied to a space of dimension other than 3. These definitions do not pretend to be strict but serve only to facilitate understanding. Many of these definitions can be found in [1]. The reference frame is assumed to be inertial unless otherwise stated.
References
1.  A. I. Kostrikin and Yu. I. Manin, Linear Algebra and Geometry [in Russian], Nauka, Moscow, 1986.
2.  E. Cartan, Theory of Spinors [Russian translation], Izd-vo Inostr. Lit-ry, Moscow, 1947.
3.  V. N. Branets and I. P. Shmyglevskii, Applications of Quaternions in Problems of Orientation of a Rigid Body [in Russian], Nauka, Moscow, 1973.
Received 22 January 2001
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