In "music, timbre ("// "TAM-bər, also known as tone color or tone quality from "psychoacoustics) is the perceived sound quality of a "musical note, sound or tone. Timbre distinguishes different types of sound production, such as "choir voices and "musical instruments, such as "string instruments, "wind instruments, and "percussion instruments. It also enables listeners to distinguish different instruments in the same category (e.g. an "oboe and a "clarinet).
The physical characteristics of sound that determine the perception of timbre include "spectrum and "envelope. Singers and instrumental musicians can change the timbre of the music they are singing/playing by using different singing or playing techniques. For example, a violinist can use different bowing styles or play on different parts of the string to obtain different timbres (e.g., playing "sul tasto produces a light, airy timbre, whereas playing "sul ponticello produces a harsh, even and aggressive tone). On "electric guitar and "electric piano, performers can change the timbre using "effects units and "graphic equalizers.
In simple terms, timbre is what makes a particular musical sound have a different sound from another, even when they have the same "pitch and "loudness. For instance, it is the difference in sound between a guitar and a piano playing the same note at the same volume. Both instruments can sound equally tuned in relation to each other as they play the same note, and while playing at the same amplitude level each instrument will still sound distinctively with its own unique tone color. Experienced "musicians are able to distinguish between different instruments of the same type based on their varied timbres, even if those instruments are playing notes at the same "pitch and "loudness.
Tone quality and tone color are synonyms for timbre, as well as the "texture attributed to a single instrument". However, the word "texture can also refer to the type of music, such as "multiple, interweaving melody lines versus "a singable melody accompanied by subordinate chords. "Hermann von Helmholtz used the German Klangfarbe (tone color), and "John Tyndall proposed an English translation, clangtint, but both terms were disapproved of by "Alexander Ellis, who also discredits register and color for their pre-existing English meanings (Erickson 1975, 7). The sound of a "musical instrument may be described with words such as bright, dark, warm, harsh, and other terms. There are also "colors of noise, such as "pink and "white. In visual representations of sound, timbre corresponds to the shape of the image (Abbado 1988, 3), while loudness corresponds to brightness; pitch corresponds to the y-shift of the spectrogram.
The Acoustical Society of America (ASA) Acoustical Terminology definition 12.09 of timbre describes it as "that attribute of auditory sensation which enables a listener to judge that two nonidentical sounds, similarly presented and having the same "loudness and "pitch, are dissimilar", adding, "Timbre depends primarily upon the frequency spectrum, although it also depends upon the sound pressure and the temporal characteristics of the sound" (Acoustical Society of America Standards Secretariat 1994).
Timbre has been called "...the psychoacoustician's multidimensional waste-basket category for everything that cannot be labeled pitch or loudness." (McAdams and Bregman 1979, 34; cf. Dixon Ward 1965, 55 and Tobias 1970, 409).
Many commentators have attempted to decompose timbre into component attributes. For example, J. F. Schouten (1968, 42) describes the "elusive attributes of timbre" as "determined by at least five major acoustic parameters", which "Robert Erickson (1975, 5) finds, "scaled to the concerns of much contemporary music":
An example of a tonal sound is a musical sound that has a definite pitch, such as pressing a key on a "piano; a sound with a noiselike character would be "white noise, the sound similar to that produced when a radio is not tuned to a station.
Erickson (1975, 6) gives a table of subjective experiences and related physical phenomena based on Schouten's five attributes:
|Tonal character, usually pitched||Periodic sound|
|Noisy, with or without some tonal character, including "rustle noise||Noise, including random pulses characterized by the rustle time (the mean interval between pulses)|
|Beginning/ending||Physical rise and decay time|
|Coloration glide or formant glide||Change of spectral envelope|
|Microintonation||Small change (one up and down) in frequency|
See also Psychoacoustic evidence below.
The richness of a sound or note a musical instrument produces is sometimes described in terms of a sum of a number of distinct "frequencies. The lowest frequency is called the "fundamental frequency, and the "pitch it produces is used to name the note, but the fundamental frequency is not always the dominant frequency. The dominant frequency is the frequency that is most heard, and it is always a multiple of the fundamental frequency. For example, the dominant frequency for the transverse flute is double the fundamental frequency. Other significant frequencies are called "overtones of the fundamental frequency, which may include "harmonics and "partials. Harmonics are "whole number multiples of the fundamental frequency, such as ×2, ×3, ×4, etc. Partials are other overtones. There are also sometimes "subharmonics at whole number divisions of the fundamental frequency. Most instruments produce harmonic sounds, but many instruments produce partials and "inharmonic tones, such as cymbals and other "indefinite-pitched instruments.
When the "tuning note in an "orchestra or "concert band is played, the sound is a combination of 440 Hz, 880 Hz, 1320 Hz, 1760 Hz and so on. Each instrument in the orchestra or concert band produces a different combination of these frequencies, as well as harmonics and overtones. The sound waves of the different frequencies overlap and combine, and the balance of these amplitudes is a major factor in the characteristic sound of each instrument.
"William Sethares wrote that "just intonation and the western "equal tempered "scale are related to the harmonic "spectra/timbre of many western instruments in an analogous way that the inharmonic timbre of the "Thai "renat (a xylophone-like instrument) is related to the seven-tone near-equal tempered "pelog scale in which they are tuned. Similarly, the inharmonic spectra of "Balinese metallophones combined with harmonic instruments such as the stringed "rebab or the voice, are related to the five-note near-equal tempered "slendro scale commonly found in Indonesian "gamelan music (Sethares 1998, 6, 211, 318).
The timbre of a sound is also greatly affected by the following aspects of its envelope: attack time and characteristics, decay, sustain, release ("ADSR envelope) and "transients. Thus these are all common controls on professional "synthesizers. For instance, if one takes away the attack from the sound of a piano or trumpet, it becomes more difficult to identify the sound correctly, since the sound of the hammer hitting the strings or the first blast of the player's lips on the trumpet mouthpiece are highly characteristic of those instruments. The envelope is the overall amplitude structure of a sound, so called because the sound just "fits" inside its envelope: what this means should be clear from a time-domain display of almost any interesting sound, zoomed out enough that the entire waveform is visible.
Instrumental timbre played an increasing role in the practice of "orchestration during the eighteenth and nineteenth centuries. "Berlioz (Macdonald 1969, 51) and "Wagner (Latham) made significant contributions to its development during the nineteenth century. "Debussy, who composed during the last decades of the nineteenth and the first decades of the twentieth centuries, has been credited with elevating further the role of timbre: "To a marked degree the music of Debussy elevates timbre to an unprecedented structural status; already in "Prélude à l'après-midi d'un faune the color of "flute and "harp functions referentially" (Samson 1977, p. 195).
"Mahler’s approach to "orchestration illustrates the increasing role of differentiated timbres in music of the early twentieth century. "Norman Del Mar (1980, 48) describes the following passage from the "Scherzo movement of his "Sixth Symphony, as "a seven-bar link to the trio consisting of an extension in diminuendo of the repeated As… though now rising in a succession of piled octaves which moreover leap-frog with Cs added to the As. The lower octaves then drop away and only the Cs remain so as to dovetail with the first oboe phrase of the trio." During these bars, Mahler passes the repeated notes through a gamut of instrumental colours, mixed and single: starting with horns and pizzicato strings, progressing through trumpet, clarinet, flute, piccolo and finally, oboe:
See also "Klangfarbenmelodie.
In "rock music from the late 1960s to the 2000s, the timbre of specific sounds is important to a song. For example, in "heavy metal music, the sonic impact of the heavily amplified, heavily distorted "power chord played on "electric guitar through very loud "guitar amplifiers and rows of "speaker cabinets is an essential part of the style's musical identity. You could not take the heavily amplified electric guitar part and substitute it with the same notes played on a "grand piano or "pipe organ.
Often, listeners can identify an instrument, even at different pitches and loudness, in different environments, and with different players. In the case of the "clarinet, acoustic analysis shows waveforms irregular enough to suggest three instruments rather than one. David Luce (1963, 16) suggests that this implies that "[C]ertain strong regularities in the acoustic waveform of the above instruments must exist which are invariant with respect to the above variables." However, Robert Erickson argues that there are few regularities and they do not explain our "...powers of recognition and identification." He suggests borrowing the concept of "subjective constancy from studies of vision and "visual perception (Erickson 1975, 11).
Psychoacoustic experiments from the 1960s onwards tried to elucidate the nature of timbre. One method involves playing pairs of sounds to listeners, then using a "multidimensional scaling algorithm to aggregate their dissimilarity judgments into a timbre space. The most consistent outcomes from such experiments are that "brightness or spectral energy distribution (Grey 1977), and the bite, or rate and synchronicity (Wessel 1979) and rise time (Lakatos 2000), of the attack are important factors.
The concept of "tristimulus originates in the world of color, describing the way three primary colors can be mixed together to create a given color. By analogy, the musical tristimulus measures the mixture of "harmonics in a given sound, grouped into three sections. The first tristimulus measures the relative weight of the first harmonic; the second tristimulus measures the relative weight of the second, third, and fourth harmonics taken together; and the third tristimulus measures the relative weight of all the remaining harmonics (Peeters 2003; Pollard and Jansson 1982,["page needed]):