具有未知第一积分的机械系统的劳斯定理

IF 0.7 Q4 MECHANICS Theoretical and Applied Mechanics Pub Date : 2017-01-01 DOI:10.2298/TAM170512008K
A. V. Karapetyan, Alexander S. Kuleshov
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引用次数: 1

摘要

本文讨论了具有第一积分的守恒和耗散力学系统的稳态运动的稳定性问题。一般结果由一个旋转对称刚体在完美粗糙平面上的运动问题来说明。应用Routh-Salvadori定理及其推广[1-4]研究具有第一积分U0 = c0, U1 = c1,…的机械系统静止运动的稳定性,将Uk = ck约简为研究U0的定值类型(这里U0也可以是沿系统轨迹的非递增函数)。,英国。在b[5]中提出了这种调查的有效方法。该方法不考虑所考虑系统的运动方程,但假定所有的第一积分都是显式已知的。另一方面,利用i.m. Mindlin和g.k. Pozharitskii[6]的结果,可以区分出稳定性分析不需要所有第一积分的显式形式(U1 = c1,…)的系统[7]。,除U0 = c0外,Uk = ck。设一个机械系统的运动方程有如下形式(这里T表示转置):(1)d dt(︁∂K∂?︁=∂K∂q +G?−∂W∂q−Γ∂W∂p,
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The Routh Theorem for Mechanical Systems with Unknown First Integrals
In this paper we discuss problems of stability of stationary motions of conservative and dissipative mechanical systems with first integrals. General results are illustrated by the problem of motion of a rotationally symmetric rigid body on a perfectly rough plane. Application of the Routh–Salvadori theorem and its generalizations [1–4] for investigation of stability of stationary motions of mechanical systems with first integrals U0 = c0, U1 = c1, . . . , Uk = ck is reduced to study the type of stationary value of U0 (here U0 can be also a nonincreasing along system trajectories function) for fixed values of U1, . . . , Uk. The effective method of such investigation is proposed in [5]. This method does not take into account equations of motion of the considered system however it is supposed that all first integrals are known explicitly. On the other hand using results by I. M. Mindlin and G. K. Pozharitskii [6] it is possible to distinguish the systems [7] for which the stability analysis does not require the explicit form of all first integrals U1 = c1, . . . , Uk = ck, except U0 = c0. Let equations of motion of a mechanical system have the following form (here T means transposition): (1) d dt (︁∂K ∂?̇? )︁ = ∂K ∂q +G?̇? − ∂W ∂q − Γ ∂W ∂p ,
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
4
审稿时长
32 weeks
期刊介绍: Theoretical and Applied Mechanics (TAM) invites submission of original scholarly work in all fields of theoretical and applied mechanics. TAM features selected high quality research articles that represent the broad spectrum of interest in mechanics.
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