乐器发声的基本物理原理
The Basic Physical Principles of Vocal Instrument
DOI: 10.12677/APP.2018.87043, PDF,   
作者: 季福云, 万勇*:青岛大学物理科学学院,山东 青岛;孙国同:青岛58中学,山东 青岛;袁博轩:青岛1中学,山东 青岛
关键词: 乐器波速驻波乐音谐振Musical Instrument Wave Velocity Standing Wave Musical Sound Resonance
摘要: 乐器可分为弦乐器、管乐器和打击乐器等类型。由于乐器的发声原理不同,其背后的物理原理也不尽相同。本文首先介绍乐器的分类和相应原理,系统说明了乐器发声的一些基本物理原理,然后具体分析几种典型乐器发声的物理原理。
Abstract: Musical instruments can be divided into stringed instruments, wind instruments and percussion instruments and other types. Because the sound principle of musical instrument is different, the physics principle behind it is also different. In this paper, the classification and corresponding principles of musical instruments are introduced, and some basic physical principles are systematically explained, and then the physical principles of vocal sounds of several typical musical instruments are analyzed in detail.
文章引用:季福云, 孙国同, 袁博轩, 万勇. 乐器发声的基本物理原理[J]. 应用物理, 2018, 8(7): 336-341. https://doi.org/10.12677/APP.2018.87043

参考文献

[1] 马文蔚. 大学物理[M]. 第6版. 北京: 高等教育出版社, 2012.
[2] 龚镇雄. 音乐与物理[J]. 物理, 1995, 24(9): 543-547.
[3] 马惠英, 佘守宪. 管中的驻波: 管乐器和簧乐器——物理与音乐之三[J]. 物理通报, 2004(4): 42-45.
[4] 马惠英, 佘守宪. 打击乐器和膜、棒、板的振动——物理与音乐专题之四[J]. 物理通报, 2004(5): 43-46.
[5] Valiaki, V. (2004) Physics-Based Modeling of Musical Instruments. Acta Acustica United with Acustica, 90, 611-617.

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