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Reflection of Waves01:07

Reflection of Waves

3.9K
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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Electrostatic Boundary Conditions01:16

Electrostatic Boundary Conditions

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Consider an external electric field propagating through a homogeneous medium. When the electric field crosses the surface boundary of the medium, it undergoes a discontinuity. The electric field can be resolved into normal and tangential components. The amount by which the field changes at any boundary is given by the difference between the field components above and below the surface boundary.
The surface integral of an electric field is given by Gauss's law in integral form and is related to...
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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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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...
2.5K
Sound Waves: Interference00:53

Sound Waves: Interference

4.0K
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...
4.0K
Standing Waves in a Cavity01:28

Standing Waves in a Cavity

1.1K
A household microwave and lasers are examples of standing electromagnetic waves in a cavity. When two conducting metal plates are placed parallel at the nodal planes, it creates a cavity where standing waves are formed. The cavity between the two planes is analogous to a stretched string held at the points x = 0 and x = L. Here, the distance 'L' between the two planes must be an integer multiple of half of the wavelength. The wavelengths that satisfy this condition are given by:
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Updated: Sep 28, 2025

An Analog Macroscopic Technique for Studying Molecular Hydrodynamic Processes in Dense Gases and Liquids
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An Analog Macroscopic Technique for Studying Molecular Hydrodynamic Processes in Dense Gases and Liquids

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Immersed boundary methods in wave-based virtual acoustics.

Stefan Bilbao1

  • 1Acoustics and Audio Group, University of Edinburgh, Room 2.10 Alison House, 12 Nicolson Square, Edinburgh, EH8 9DF, United Kingdom.

The Journal of the Acoustical Society of America
|April 2, 2022
PubMed
Summary
This summary is machine-generated.

A simplified immersed boundary method enhances virtual acoustics simulations. This approach efficiently handles complex geometries on regular grids, improving numerical stability and simplifying impedance boundary incorporation for wave-based simulations.

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Area of Science:

  • Computational physics
  • Acoustics engineering
  • Numerical methods

Background:

  • Wave-based simulation methods like finite difference time domain (FDTD) are computationally intensive for large volumes.
  • Irregular geometries in virtual acoustics pose challenges for traditional meshing, affecting numerical stability.
  • The immersed boundary method (IBM) is underutilized in virtual acoustics despite its success in fluid-structure interaction.

Purpose of the Study:

  • To present a simplified immersed boundary method (IBM) specifically adapted for virtual acoustics.
  • To demonstrate the method's ability to handle irregular geometries efficiently on regular grids.
  • To investigate the numerical stability and applicability of IBM in acoustic simulations.

Main Methods:

  • Implementation of a simplified immersed boundary method (IBM) on a regular grid.
  • Application of passivity-preserving discretization techniques for enhanced numerical stability.
  • Incorporation of impedance boundary conditions within the immersed boundary framework.

Main Results:

  • The simplified IBM allows for efficient simulation of virtual acoustics problems on regular grids.
  • The method exhibits simple numerical stability conditions, particularly with impedance boundaries.
  • Numerical results in 2D and 3D demonstrate the effectiveness for interior and exterior acoustic scenarios.

Conclusions:

  • The proposed simplified immersed boundary method offers an efficient and stable alternative for volumetric wave-based acoustic simulations.
  • This approach effectively manages complex geometries without compromising grid regularity or numerical stability.
  • The method facilitates straightforward integration of impedance boundaries, expanding its applicability in virtual acoustics.