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- LEE Hsing-Juin
- Department of Mechanical Engineering, National Chung-Hsing University
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抄録
Traditionally, Euler’s equations are commonly employed for the analyses of interesting gyrodynamics problems. Nevertheless, they generally give no idea how these complicated gyroscopic forces are mutually interacting. Thus, we may risk missing some insights regarding working forces. Therefore, in this study, we present a so-called “finite particle method, ” which simulates a gyroscope by a small number of dynamically equivalent particles (usually 2 to 8 only) rigidly connected. This method largely degenerates complicated 3-D gyrodynamics to a particle dynamics problem in a rotating frame. The finite particle method has elegantly demonstrated its validity by successfully deriving the same steady gyrodynamics equations as that derived from Euler’s approach, yet only in amazingly minimal steps for some cases. Surprisingly enough, by this method, one can swiftly understand some delicate gyrodynamics phenomena more deeply by merely inspecting centripetal and Coriolis forces particle by particle, without even knowing what angular momentum is. In short, this finite particle method is characterized by its simpler concept, succinct derivation, and possibly insightful understanding of intrinsic force interactions for some gyrodynamics problems as demonstrated in the retrograding phenomenon of disk-shaped satellites and other examples.
収録刊行物
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- TRANSACTIONS OF THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES
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TRANSACTIONS OF THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES 43 (140), 46-54, 2000
一般社団法人 日本航空宇宙学会
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詳細情報 詳細情報について
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- CRID
- 1390282679055411328
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- NII論文ID
- 10004532909
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- NII書誌ID
- AA0086707X
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- ISSN
- 21894205
- 05493811
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- NDL書誌ID
- 5485779
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- 本文言語コード
- en
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- データソース種別
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- JaLC
- NDL
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- 使用不可