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相关概念视频

Sound Waves: Interference00:53

Sound Waves: Interference

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Sound waves can be modeled either as longitudinal waves, wherein the molecules of the medium oscillate around an equilibrium position, or as pressure waves. When two identical waves from the same source superimpose on each other, the combination of two crests or two troughs results in amplitude reinforcement known as constructive interference. If two identical waves, that are initially in phase, become out of phase because of different path lengths, the combination of crests with troughs...
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Interference and Superposition of Waves01:07

Interference and Superposition of Waves

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When two waves of the same nature occur in the same region simultaneously, they result in interference. Interference of waves implies that the net effect of the waves is the sum of the individual waves' effects. However, it does not imply that the individual waves affect the propagation of other waves.
Interference occurs in mechanical waves, such as sound waves, waves on a string, and surface water waves. Mechanical waves correspond to the physical displacement of particles. Hence,...
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Reflection of Waves01:07

Reflection of Waves

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When a wave travels from one medium to another, it gets reflected at the boundary of the second medium. A common example of this is when a person yells at a distance from a cliff and hears the echo of their voice. The sound waves (longitudinal waves) traveling in the air are reflected from the bounding cliff. Similarly, flipping one end of a string whose other end is tied to a wall causes a pulse (transverse wave) to travel through the string, which gets reflected upon reaching the wall. In...
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Echo01:06

Echo

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The human ear cannot distinguish between two sources of sound if they happen to reach within a specific time interval, typically 0.1 seconds apart. More than this, and they are perceived as separate sources.
Imagine the sound is reflected back to the ears. Assuming that the source is very close to the human, the difference between hearing the two sounds—the emitted sound and the reflected sound—may be more than the minimum time for perceiving distinct sounds. If this is the case,...
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Interference: Path Lengths01:10

Interference: Path Lengths

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Consider two sources of sound, that may or may not be in phase, emitting waves at a single frequency, and consider the frequencies to be the same.
Two special sources may be considered when they are in phase. This can be easily achieved by feeding the two sources from the same source. An example would be synchronizing the two speakers by feeding them with the same source, such as the sound waves produced by a tuning fork. This setup ensures that the two sources have the same frequency and are...
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Propagation of Waves01:07

Propagation of Waves

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When a wave propagates from one medium to another, part of it may get reflected in the first medium, and part of it may get transmitted to the second medium. In such a case, the interface of the two mediums can be considered as a boundary that is neither fixed nor free.
Consider a scenario where a wave propagates from a string of low linear mass density to a string of high linear mass density. In such a case, the reflected wave is out of phase with respect to the incident wave, however the...
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相关实验视频

Updated: Jun 24, 2025

Microparticle Manipulation by Standing Surface Acoustic Waves with Dual-frequency Excitations
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Microparticle Manipulation by Standing Surface Acoustic Waves with Dual-frequency Excitations

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一种复杂的边界波叠加方法,用于解决外部声学问题.

Yu Xiang1, Jie Chen1,2, Ziyu Shi3

  • 1Guangxi Key Laboratory of Automobile Components and Vehicle Technology, Guangxi University of Science and Technology, Liuzhou 545006, China.

The Journal of the Acoustical Society of America
|June 10, 2024
PubMed
概括
此摘要是机器生成的。

本研究介绍了一种新的复杂边界波叠加方法 (WSM),为声波问题提供独特的解决方案. 改进的方法克服了自身频率解决方案的非独特性,提供了更高的效率和准确性.

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Author Spotlight: A Stable Phantom Material for Optical and Acoustic Imaging
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Last Updated: Jun 24, 2025

Microparticle Manipulation by Standing Surface Acoustic Waves with Dual-frequency Excitations
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Microparticle Manipulation by Standing Surface Acoustic Waves with Dual-frequency Excitations

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Author Spotlight: A Stable Phantom Material for Optical and Acoustic Imaging
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Author Spotlight: A Stable Phantom Material for Optical and Acoustic Imaging

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Evanescent Field Based Photoacoustics: Optical Property Evaluation at Surfaces
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科学领域:

  • 声学 声学 在声学方面
  • 计算力学 计算力学 计算力学
  • 数字分析 数字分析

背景情况:

  • 传统的波叠加方法 (WSM) 面临的挑战是,在自身频率下,其解决方案并不独特.
  • 动态系统具有独特的解决方案,这种属性在标准WSM中并未被固有的捕获.

研究的目的:

  • 开发一个复杂的边界波叠加方法 (WSM),确保在所有波数中提供唯一的解决方案.
  • 将缓冲特性纳入WSM,与动态系统理论进行并行.

主要方法:

  • 提出了一个复杂的边界波叠加方法 (WSM),利用复杂的空间边界上的虚拟等价源.
  • 该方法利用了动态系统中WSM和外部激发反应之间的相似性.
  • 详细介绍了理论框架,建模和参数选择.

主要成果:

  • 拟议的方法成功地解决了自身频率的非独特性问题,这是传统WSM中常见的问题.
  • 对声辐射和散射问题的数值评估证明了它的有效性.
  • 该方法的准确性和效率与传统的WSM相美.

结论:

  • 复杂的边界波叠加方法为声波问题提供了独特而强大的解决方案.
  • 这种方法通过引入缓冲特性,提高稳定性和可靠性来增强WSM.
  • 该方法为传统的组合层潜力方法提供了更有效的替代方案.