Musical Mathematics

ON THE ART AND SCIENCE OF ACOUSTIC INSTRUMENTS

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© 2000–2025 Cris Forster

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The following M.M. pages:
(1) the Table of Contents,
(2) the Foreword by Dr. David R. Canright,
(3) the Introduction and Acknowledgments,
(4) a Tone Notation graphic,
(5) the List of Symbols,
(6) the First Pages of all the chapters,

and the

(7) Bibliography & (8) Index may be downloaded here:

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Musical Mathematics — Online PDF Citations

 

CONTENTS

Foreword by David R. Canrightv
Introduction and Acknowledgmentsvii
Tone Notationix
List of Symbolsxi
CHAPTER 1 MICA MASS 1
Part IPrinciples of force, mass, and acceleration1
Part IIMica mass definitions, mica unit derivations, and sample calculations14
Notes24
CHAPTER 2 PLAIN STRING AND WOUND STRING CALCULATIONS 27
Part IPlain strings27
Part IIWound strings36
Notes41
CHAPTER 3FLEXIBLE STRINGS44
Part ITransverse traveling and standing waves, and simple harmonic motion in strings44
Part IIPeriod and frequency equations of waves in strings54
Part IIILength, frequency, and interval ratios of the harmonic series on canon strings59
Part IVLength, frequency, and interval ratios of non-harmonic tones on canon strings69
Part VMusical, mathematical, and linguistic origins of length ratios79
Notes94
CHAPTER 4 INHARMONIC STRINGS98
Part IDetailed equations for stiffness in plain strings98
Part IIEquations for coefficients of inharmonicity in cents108
Part IIIGeneral equations for stiffness in wound strings113
Notes115
CHAPTER 5 PIANO STRINGS VS. CANON STRINGS118
Part ITransmission and reflection of mechanical and acoustic energy118
Part IIMechanical impedance and soundboard-to-string impedance ratios120
Part IIIRadiation impedance and air-to-soundboard impedance ratios126
Part IVDispersion, the speed of bending waves, and critical frequencies in soundboards130
Part VMethods for tuning piano intervals to beat rates of coincident string harmonics135
Part VIMusical advantages of thin strings and thin soundboards141
Notes143
CHAPTER 6 BARS, RODS, AND TUBES147
Part IFrequency equations, mode shapes, and restoring forces of free-free bars147
Part IIFree-free bar tuning techniques160
Part IIIFrequency equations, mode shapes, and restoring forces of clamped-free bars174
Part IVClamped-free bar tuning techniques176
Notes178
CHAPTER 7ACOUSTIC RESONATORS182
Part ISimple harmonic motion of longitudinal traveling waves in air182
Part IIEquations for the speed of longitudinal waves in solids, liquids, and gases186
Part IIIReflections of longitudinal traveling waves at the closed and open ends of tubes189
Part IVAcoustic impedance and tube-to-room impedance ratio196
Part VLongitudinal pressure and displacement standing waves in tubes200
Part VILength and frequency equations of tube resonators203
Part VIITheory of cavity resonators212
Part VIIICavity resonator tuning techniques219
Notes223
CHAPTER 8SIMPLE FLUTES227
Part IEquations for the placement of tone holes on concert flutes and simple flutes227
Part IIEquations for analyzing the tunings of existing flutes242
Part IIISuggestions for making inexpensive yet highly accurate simple flutes246
Notes248
CHAPTER 9 THE GEOMETRIC PROGRESSION, LOGARITHMS, AND CENTS 253
Part IHuman perception of the harmonic series as a geometric progression253
Part IILogarithmic processes in mathematics and human hearing257
Part IIIDerivations and applications of cent calculations265
Part IVLogarithmic equations for guitar frets and musical slide rules271
Notes276
CHAPTER 10WESTERN TUNING THEORY AND PRACTICE 280
Part IDefinitions of prime, composite, rational, and irrational numbers281
Part IIGreek classifications of ratios, tetrachords, scales, and modes284
Part IIIArithmetic and geometric divisions on canon strings291
Part IVPhilolaus, Euclid, Aristoxenus, and Ptolemy299
Part VMeantone temperaments, well-temperaments, and equal temperaments334
Part VIJust intonation365
Notes460
CHAPTER 11WORLD TUNINGS485
Part IChinese Music485
Notes504
Part IIIndonesian Music:508
Java508
Bali522
Notes535
Part IIIIndian Music:540
Ancient Beginnings540
South India564
North India
587
Notes600
Part IVArabian, Persian, and Turkish Music610
Notes774
CHAPTER 12ORIGINAL INSTRUMENTS788
Stringed Instruments:
Chrysalis I — and Chrysalis II for a future 2nd ed.
788
Harmonic/Melodic Canon790
Bass Canon800
Just Keys808
Percussion Instruments:
Diamond Marimba II — and Diamond Marimba I for a future 2nd ed.
824
Bass Marimba826
Friction Instrument:
Glassdance828
Wind Instruments:
Simple Flutes833
CHAPTER 13BUILDING A LITTLE CANON834
Parts, materials, labor, and detailed dimensions834
Epilog by Heidi Forster839
Plate 1: Chrysalis I
845
Plate 2: Harmonic/Melodic Canon846
Plate 3: Bass Canon847
Plate 4: String Winder (machine)848
Plate 5: String Winder (detail)849
Plate 6: Just Keys850
Plate 7: Diamond Marimba851
Plate 8: Bass Marimba852
Plate 9: Glassdance853
Plate 10: Glassdance (back)854
Plate 11: Simple Flutes855
Plate 12: Little Canon856
Plate 13: Cris Forster with Chrysalis I
857
Plate 14: Heidi Forster playing Glassdance858
Plate 15: David Canright, Heidi Forster, and Cris Forster859
Plate 16: Chrysalis Foundation Workshop860
Bibliography for Chapters 1-9861
Bibliography for Chapters 10866
Bibliography for Chapters 11871
Bibliography for Chapters 12877
Appendix A: Frequencies of Eight Octaves of 12-Tone Equal Temperament879
Appendix B: Conversion Factors880
Appendix C: Properties of String Making Materials882
Appendix D: Spring Steel Music Wire Tensile Strength and Break Strength Values884
Appendix E: Properties of Bar Making Materials885
Appendix F: Properties of Solids888
Appendix G: Properties of Liquids890
Appendix H: Properties of Gases892
Index895
The Chrysalis Foundation