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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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Reflection of Waves01:07

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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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Perception of Sound Waves01:01

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The human ear is not equally sensitive to all frequencies in the audible range. It may perceive sound waves with the same pressure but different frequencies as having different loudness. Moreover, the perception of sound waves depends on the health of an individual's ears, which decays with age. The health of one's ears may also be affected by regular exposure to loud noises.
The pitch of a sound depends on the frequency and the pressure amplitude of the source. Two sounds of the same...
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Parallel Resonance01:23

Parallel Resonance

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The parallel RLC circuit is an arrangement where the resistor (R), inductor (L), and capacitor (C) are all connected to the same nodes and, as a result, share the same voltage across them. The parallel RLC circuit is analyzed in terms of admittance (Y), which reflects the ease with which current can flow. The admittance is given by:
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Related Experiment Video

Updated: Oct 26, 2025

Simulating Imaging of Large Scale Radio Arrays on the Lunar Surface
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Reflections on "Parametric acoustic array," source of virtual-array sonars.

Kenneth G Foote1

  • 1Woods Hole Oceanographic Institution, Woods Hole, Massachusetts 02543, USA.

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Summary
This summary is machine-generated.

This series revisits impactful historical articles from The Journal of the Acoustical Society of America. It highlights key contributions to the science and practice of acoustics.

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Area of Science:

  • Acoustics
  • Sound Science
  • Vibrational Mechanics

Background:

  • The Journal of the Acoustical Society of America (JASA) has a long history of publishing significant research.
  • Understanding the historical trajectory of acoustics is crucial for current scientific advancement.

Purpose of the Study:

  • To review and analyze seminal articles from JASA.
  • To identify and discuss papers that have shaped the field of acoustics.

Main Methods:

  • Literature review of historical JASA publications.
  • Selection of articles based on their impact and citation frequency.
  • Analysis of the scientific and practical contributions of selected articles.

Main Results:

  • Identification of key research themes and breakthroughs in acoustics over time.
  • Highlighting the evolution of acoustical science and its applications.
  • Showcasing the foundational work that underpins modern acoustics.

Conclusions:

  • Historical JASA articles provide valuable insights into the development of acoustics.
  • These reflections underscore the enduring impact of foundational research on the field.
  • The series serves as a resource for understanding the historical context of acoustical advancements.