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12.1: Perception of sound

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    Perception of Sound: Learning Objectives

    In this part of the book, you can expect to learn how to

    • distinguish between measurable characteristics of vibrations at the ear and human perception
    • describe connections between
      • amplitude and loudness perception
      • frequency and pitch perception
      • spectral content, envelope and timbre perception
    • read and interpret sound graphs
    • move back and forth between different ways of representing sounds, including
      • words
      • time-domain graphs (o-scope graphs)
      • frequency-domain graphs (FFTs)
      • spectrograms
    • explain the role of frequency ratios in musical intervals and spectral content

    Sound sources- tuning forks, the strings on a guitar, your larynx when you speak, the cone of a stereo speaker- vibrate. These objects push against the nearby air molecules and force them to vibrate. Those molecules push on the molecules near them and so on. The disturbances in the air travel outward in all directions and eventually reach some sort of detector- like a microphone or a human ear. When the air molecules near the detector vibrate, the sound detector often converts the mechanical vibrations in electrical ones that can be recorded and/or processed. Vibrations that reach the human eardrum get turned into electrical impulses that your brain interprets as sound.

    The characteristics of vibrations at the ear play a key role in what we hear. This chapter focuses on the link between characteristics of vibrations- like frequency, amplitude and spectral content- and what humans hear.

    • 12.1.1: Subjective impressions
      This page examines human sound perception, covering loudness (strength of sound), pitch (highness or lowness), and timbre (unique tone quality). It emphasizes that these characteristics are subjective impressions rather than exact measurements and stresses the importance of understanding these concepts in the context of auditory experiences.
    • 12.1.2: What drives perception
      This page explains the process through which vibrations detected by the eardrum are translated into sound perception in the brain. It highlights the influence of loudness (linked to amplitude), pitch (based on fundamental frequency), and timbre (resulting from the interplay of amplitude and spectral content) on how sounds are experienced. The discussion also addresses unpitched sounds, illustrating the complexity of human auditory perception.

    Thumbnail: Woman in white crew neck shirt covering her face with her hand (Unsplash License; Jackson Simmer on Unsplash)

    This page titled 12.1: Perception of sound is shared under a CC BY 4.0 license and was authored, remixed, and/or curated by Andrew Morrison (Consortium of Academic and Research Libraries in Illinois (CARLI)) via source content that was edited to the style and standards of the LibreTexts platform.

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