基于三个负载之间动能相互交换的自由正弦振荡

IF 1.1 4区 物理与天体物理 Q4 PHYSICS, APPLIED
I. P. Popov
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引用次数: 0

摘要

摘要 人们注意到,经典机械振荡器中的自由正弦振荡是由于动能与势能的相互转化。已知有一种振荡器,其中的自由正弦振荡伴随着一种惰性元素的动能转化为另一种惰性元素的相同动能。在这种振荡器中不存在反应性质不同的元素。这种振荡器基本上是单反应的。这种振荡器的缺点是结构不对称造成的不平衡,可能需要额外的振动保护措施。通过使用带有三个负载的对称方案可以避免这一缺点。在本研究中,使用平面三坐标系与电气工程中使用的三相坐标系类似。对于位于三坐标平面内的任意矢量 R,其原点与坐标原点重合,定理 1 成立。向量 R 的坐标 \({{x}_{1}}/)、 \({{x}_{2}}/)、 \({{x}_{3}}/)构成一个正三角形,其大小不随向量 R 的任意旋转而改变。向量 R 的中间与三角形 \({{x}_{1}}{{x}_{2}}{{x}_{3}}\) 的中心对齐。矢量 R 的一半起着曲柄的作用,在实际设备中,曲柄需要产生角速度 \(\omega \),并传递力矩以补偿耗散损失。在带有三个负载的单作用谐波振荡器中,可以发生任何给定频率的自由正弦振荡,这完全由初始条件决定。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Free Sinusoidal Oscillations Based on the Mutual Exchange of Kinetic Energy between Three Loads

Free Sinusoidal Oscillations Based on the Mutual Exchange of Kinetic Energy between Three Loads

Free Sinusoidal Oscillations Based on the Mutual Exchange of Kinetic Energy between Three Loads

It is noted that free sinusoidal oscillations in a classical mechanical oscillator are due to the mutual transformation of kinetic energy into potential energy. Known is an oscillator, in which free sinusoidal oscillations are accompanied by the transformation of the kinetic energy of an inert element into the same kinetic energy of another inert element. Elements with a different nature of reactivity are absent in such an oscillator. Such an oscillator is essentially monoreactive. The disadvantage of this oscillator is its imbalance due to the asymmetry of the structure, which may require additional vibration protection measures. This drawback can be avoided by using a symmetrical scheme with three loads. For the purposes of this work, it is convenient to use a flat three-coordinate system similar to the three-phase coordinate system used in electrical engineering. For an arbitrary vector R lying in the three-coordinate plane with the origin coinciding with the origin of coordinates, Theorem 1 is true. Coordinates \({{x}_{1}}\), \({{x}_{2}}\), \({{x}_{3}}\) of vector R form a regular triangle, the size of which does not change with an arbitrary rotation of vector R. Theorem 2. The middle of vector R is aligned with the center of the triangle \({{x}_{1}}{{x}_{2}}{{x}_{3}}\). Half of vector R plays the role of a crank, which in real devices is needed to develop angular velocity \(\omega \) and to impart the moment of force to compensate for dissipative losses. In a monoreactive harmonic oscillator with three loads, free sinusoidal oscillations of any given frequency can occur, which is determined solely by the initial conditions.

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来源期刊
Technical Physics
Technical Physics 物理-物理:应用
CiteScore
1.30
自引率
14.30%
发文量
139
审稿时长
3-6 weeks
期刊介绍: Technical Physics is a journal that contains practical information on all aspects of applied physics, especially instrumentation and measurement techniques. Particular emphasis is put on plasma physics and related fields such as studies of charged particles in electromagnetic fields, synchrotron radiation, electron and ion beams, gas lasers and discharges. Other journal topics are the properties of condensed matter, including semiconductors, superconductors, gases, liquids, and different materials.
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