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相关概念视频

Bewley Lattice Diagram01:12

Bewley Lattice Diagram

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The Bewley lattice diagram, developed by L. V. Bewley, effectively organizes the reflections occurring during transmission-line transients. It visually represents how voltage waves propagate and reflect within a transmission line, making it easier to understand the complex interactions that occur.
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Deriving the Speed of Sound in a Liquid01:09

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As with waves on a string, the speed of sound or a mechanical wave in a fluid depends on the fluid's elastic modulus and inertia. The two relevant physical quantities are the bulk modulus and the density of the material. Indeed, it turns out that the relationship between speed and the bulk modulus and density in fluids is the same as that between the speed and the Young's modulus and density in solids.
The speed of sound in fluids can be derived by considering a mechanical wave...
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The electric potential of the system can be calculated by relating it to the electric charge densities that give rise to the electric potential. The differential form of Gauss's law expresses the electric field's divergence in terms of the electric charge density.
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Individual molecules in a gas move in random directions, but a gas containing numerous molecules has a predictable distribution of molecular speeds, which is known as the Maxwell-Boltzmann distribution, f(v).
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Damped Oscillations01:07

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In the real world, oscillations seldom follow true simple harmonic motion. A system that continues its motion indefinitely without losing its amplitude is termed undamped. However, friction of some sort usually dampens the motion, so it fades away or needs more force to continue. For example, a guitar string stops oscillating a few seconds after being plucked. Similarly, one must continually push a swing to keep a child swinging on a playground.
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The loudness of a sound source is related to how energetically the source is vibrating, consequently making the molecules of the propagation medium vibrate. To measure the loudness of a source, the physical quantity of interest is the intensity. This is defined as the energy emitted per unit of time per unit of area perpendicular to the sound wave's propagation direction. Since the total energy is greater if the source vibrates for a longer duration and over a larger area, dividing the...
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一个带有源项的格子博尔兹曼法,用于声学问题.

Yongkun Xiao1, Kezhao Fang1, Kaiye Zhong2

  • 1State Key Laboratory of Coastal and Offshore Engineering, Ocean Engineering Joint Research Center of DUT-UWA, Dalian University of Technology, Dalian, Liaoning 116024, People's Republic of China.

The Journal of the Acoustical Society of America
|July 24, 2025
PubMed
概括
此摘要是机器生成的。

本研究介绍了一个格子博尔兹曼方法,用于声学问题的源词. 新方法精确模拟声源,并提供比现有方法更普遍和更方便的实现.

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科学领域:

  • 计算物理学的计算物理.
  • 声学 声学 在声学方面
  • 流体动力学 流体动力学

背景情况:

  • 声学问题需要精确模拟波传播.
  • 模拟声源的现有方法在一般性和实施方面存在局限性.

研究的目的:

  • 提出一种新的格子博尔茨曼法 (LBM),其中包含声波传播的源术语.
  • 通过数值实验验证拟议的LBM方案的准确性和普遍性.

主要方法:

  • 在LBM演化方程中包含质量源,力源和力源衍生项.
  • 模拟声学单极,双极,四极和超心状点源.
  • 使用简单和复杂的声学问题场景进行验证.

主要成果:

  • 拟议的LBM准确地恢复了宏观波方程与源项.
  • 数字实验证实了该方案能够模拟各种类型的声源.
  • 该方法展示了更大的理论概论,并避免了在源附近的非物理流动干扰.

结论:

  • 开发的带有源项的格子博尔茨曼法为声学问题提供了强大而准确的解决方案.
  • 与基于边界的方法和以前的工作相比,这种方法提供了更简单,更方便的实现.
  • 该方法非常适合模拟涉及各种源类型的复杂声学现象.