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|a 00067512
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|a 000022128769
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|a 1058016351
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|a 9781846154416
|q (electronic book)
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|a 1846154413
|q (electronic book)
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|z 0851158137
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|z 9780851158136
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|a (OCoLC)646832048
|z (OCoLC)1058016351
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|a ML3838
|b .B43 2001eb
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|a 781/.11
|2 21
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|a UAMI
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|a Beament, James,
|d 1921-2005,
|e author.
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|a How we hear music :
|b the relationship between music and the hearing mechanism /
|c James Beament.
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|a Woodbridge, Suffolk, UK ;
|a Rochester, NY :
|b The Boydell Press,
|c [2001]
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|c Ã2001
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|a 1 online resource (xiv, 174 pages) :
|b illustrations
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|a text
|b txt
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|a computer
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|2 rdamedia
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|a online resource
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|a data file
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|a Includes bibliographical references (pages 171-172) and index.
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|a 1. Preliminaries -- 2. Aural archaeology -- 3. Hearing selects intervals -- 4. The beguiling harmonic theory -- 5. The imitating voice -- 6. Hearing simultaneous pitches -- 7. Patterns in harmony -- 8. Loudness -- 9. Music through the hearing machine -- 10. A sense of direction -- 11. Time and rhythm -- 12. Conclusions -- Appendices: 1. Interval names -- 2. Selecting pentatonic pitches -- 3. An alternative dodecaphonic route -- 4. Pitch discrimination and intervals -- 5. Tuning a keyboard by beats -- 6. The abominable cent -- 7. Repetition rates -- 8. Anatomical evolution -- 9. The primitive processor? -- 10. The ear structures -- 11. Hair cells -- 12. Recording auditory nerve pulses -- 13. The irregular distribution of pulses -- 14. The length of resonant vibrations -- 15. The place theory -- 16. Loudness -- 17. Memory storage and recovery of pitches -- 18. Signalling direction -- 19. Words and scents.
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|a This book begins by discussing the early evolution of simple 'Western' tonal music; what exactly were the characteristics of the intervals and scales which hearing selected. It then considers problems such as what hearing has selected as instrumental tone, and why we have such a peculiar assessment of loudness; why is that independent of pitch, and why is hearing so sensitive to time? Does the mechanism of hearing determine our pitch discrimination, which differs so much across our hearing range? Amongst other things, this discussion leads to the conclusion that the harmonics of musical sounds, which are the basis of so much theory about music, did not and cannot play the role which has been so widely attributed to them ever since the work of Helmholtz in 1870. There follows a simplified account of the hearing mechanism: how musical sound is coded by the ear, the nature of the processing stations through which the information passes before it creates sensation in the cortex, and the extent to which it provides answers to the questions which have been raised. This produces a rather different view of the basis of some fundamental features of music from those which are commonly held. It also leads to the conclusion that music started with primitive instruments rather than with the human voice. Finally, the biological reasons for the hearing mechanism behaving as it does are explained, and thus the reasons for the sensations of music being experienced in the way they are.
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|a Outstanding Academic Title (2002) Our hearing system chose the sounds for music. During the past fifty years there have been spectacular advances in our knowledge of how that system works and it seems possible that it might provide explanations for a range of musical phenomena. This book begins by discussing the early evolution of simple 'western' tonal music; what exactly were the characteristics of the intervals and scales which hearing selected. It then considers problems such as what hearing has selected as instrumental tone, and why we have such a peculiar assessment of loudness; why is that independent of pitch, and why is hearing so sensitive to time? Does the mechanism of hearing determine our pitch discrimination, which differs so much across our hearing range? Amongst other things, this discussion leads to the conclusion that the harmonics of musical sounds, which are the basis of so much theory about music, did not and cannot play the role which has been so widely attributed to them ever since the work of Helmholtz in 1870. There follows a simplified account of the hearing mechanism: how musical sound is coded by the ear, the nature of the processing stations through which the information passes before it creates sensation in the cortex, and the extent to which it provides answers to the questions which have been raised. This produces a rather different view of the basis of some fundamental features of music from those which are commonly held. It also leads to the conclusion that music started with primitive instruments rather than with the human voice. Finally, the biological reasons for the hearing mechanism behaving as it does are explained, and thus the reasons for the sensations of music being experienced in the way they are. No scientific knowledge is assumed; any simple physical acoustics required is explained, and there are no mathematical equations. The late Professor Sir JAMES BEAMENT was a distinguished scientist and musician, who taught and examined music students at Cambridge University.
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|a Print version record.
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|a JSTOR
|b Books at JSTOR All Purchased
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|a JSTOR
|b Books at JSTOR Demand Driven Acquisitions (DDA)
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|a JSTOR
|b Books at JSTOR Evidence Based Acquisitions
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|a Musical perception.
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|a Hearing.
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|a Music
|x Acoustics and physics.
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|a Perception de la musique.
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|a Musique
|x Acoustique et physique.
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|a Hearing.
|2 fast
|0 (OCoLC)fst00953374
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|a Music
|x Acoustics and physics.
|2 fast
|0 (OCoLC)fst01030272
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|a Musical perception.
|2 fast
|0 (OCoLC)fst01030788
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|i Print version:
|a Beament, James, 1921-2005.
|t How we hear music.
|d Woodbridge, Sufolk, UK ; Rochester, NY : Boydell Press, c2001
|z 0851158137
|w (DLC) 00067512
|w (OCoLC)45493087
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|u https://jstor.uam.elogim.com/stable/10.7722/j.ctt1f89rq1
|z Texto completo
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|a ebrary
|b EBRY
|n ebr10331167
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|a YBP Library Services
|b YANK
|n 2747339
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|a 92
|b IZTAP
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