Verfügbarkeit: The physics of music and color

The physics of music and color:

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Bibliographische Detailangaben
1. Verfasser:	Gunther, Leon (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New York Springer 2012
Schlagworte:	Musik Music > Acoustics and physics Wave-motion, Theory of Colors Physics Physik Farbe
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references (p. 481-483) and index
Beschreibung:	xxii, 540 p. Ill., graph. Darst. 24 cm
ISBN:	9781461405566

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Datensatz im Suchindex

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adam_text	Contents 1 Introductory Remarks ..................................................... 1 1.1 The Legend of the Huang Chung .................................. 7 2 The Vibrating String ....................................................... 11 2.1 Waves Along a Stretched String .................................... 11 2.2 A Finite String Can Generate Music! .............................. 13 2.3 Pitch, Loudness, and Timbre ....................................... 16 2.4 The Relation Between Frequency and Pitch ....................... 17 2.5 The Wave Motion of a Stretched Rope ............................ 18 2.6 Modes of Vibration and Harmonics ................................ 20 2.7 The Sine Wave ...................................................... 23 2.8 The Simple Harmonic Oscillator ................................... 26 2.8.1 The Vibration Frequency of a Simple Harmonic Oscillator ..................................... 28 2.9 Traveling Sine Waves ............................................... 29 2.9.1 Applications .............................................. 31 2.10 Modes of Vibration: Spatial Structure ............................. 32 2.11 The Wave Velocity of a Vibrating String .......................... 34 2.11.1 Application of the Above Relations to the Piano ....... 37 2.12 The Connection Between an SHO and a Vibrating String ........ 38 2.13 Stiffness of a String ................................................. 41 2.14 Resonance ........................................................... 43 2.15 General Vibrations of a String: Fourier s Theorem ............... 45 2.15.1 Frequency of a Wave with Missing Fundamental ...... 51 2.16 Periodic Waves and Timbre ........................................ 52 2.17 An Application of Fourier s Theorem to Resonance Between Strings ..................................................... 52 2.18 A Standing Wave as a Sum of Traveling Waves ................... 55 2.19 Terms ................................................................ 55 2.20 Important Equations ................................................ 57 2.21 Problems for Chap. 2................................................ 58 XV Contents The Vibrating Air Column ................................................ 63 3.1 The Air of Our Atmosphere ........................................ 63 3.1.1 Generating a Sound Pulse ............................... 66 3.1.2 Digression on Pushing a Block of Wood ............... 67 3.2 The Nature of Sound Waves in Air ................................. 67 3.3 Characterizing a Sound Wave ...................................... 69 3.4 Visualizing a Sound Wave .......................................... 70 3.5 The Velocity of Sound .............................................. 71 3.5.1 Temperature Dependence of Speed of Sound in Air ........................................... 72 3.6 Standing Waves in an Air Column ................................. 73 3.6.1 Standing Waves in a Closed Pipe ....................... 76 3.6.2 End Correction for Modes in a Pipe .................... 79 3.7 Magic in a Cup of Cocoa ........................................ 79 3.8 Terms ................................................................ 80 3.9 Important Equations ................................................ 80 3.10 Problems for Chap. 3................................................ 81 3.10.1 Derivation of the Helmholtz Formula ................... 84 Energy ....................................................................... 87 4.1 Forms of Energy and Energy Conservation ........................ 88 4.1.1 Fundamental Forms of Energy .......................... 89 4.1.2 Derived Forms of Energy ............................. 93 4.1.3 The Energy of Cheerios ................................. 94 4.2 The Principle of Conservation of Energy, Work, and Heat ....... 95 4.3 Energy of Vibrating Systems ....................................... 96 4.3.1 The Simple Harmonic Oscillator ........................ 96 4.3.2 Energy in a Vibrating String ............................. 98 4.3.3 Energy in a Sound Wave ................................. 99 4.4 Power ................................................................ 99 4.5 Intensity ............................................................. 101 4.6 Intensity of a Point Source ......................................... 103 4.7 Sound Level and the Decibel System .............................. 105 4.7.1 Logarithms ............................................... 105 4.7.2 Sound Level .............................................. 107 4.7.3 From Sound Level to Intensity .......................... 108 4.8 Attenuation .......................................................... 110 4.8.1 Attenuation in Time ...................................... 110 4.8.2 Resonance in the Presence of Attenuation .............. 113 4.8.3 Attenuation of Travelling Waves: Attenuation in Space ..................................... 114 4.9 Reverberation Time ................................................. 118 4.10 Terms ................................................................ 120 4.11 Important Equations ................................................ 121 4.12 Problems for Chap. 4................................................ 122 Contents xvii 5 Electricity, Magnetism, and Electromagnetic Waves ................... 127 5.1 The Fundamental Forces of Nature ................................ 127 5.2 The Electric Force .................................................. 129 5.3 Electric Currents in Metal Wires ................................... 130 5.4 The Magnetic Force ................................................. 131 5.5 Magnetic Forces Characterized .................................... 133 5.6 Is There a Connection Between Electricity and Magnetism? ..... 135 5.6.1 Action-Reaction Law and Force of Magnet on Current-Carrying Wire ............................... 138 5.7 The Loudspeaker .................................................... 141 5.8 The Buzzer .......................................................... 141 5.9 The Electric Motor .................................................. 142 5.10 Force Between Two Wires Carrying an Electric Current ......... 143 5.11 The Electromagnetic Force and Michael Faraday ................. 143 5.12 Applications of Faraday s EMF .................................... 147 5.13 A Final Twist ..................................................... 148 5.14 Action-at-a-Distance and Faraday s Fields ........................ 149 5.15 The Electric Field ................................................... 150 5.16 The Magnetic Field ................................................. 154 5.17 Magnetic Force on a Moving Charge .............................. 157 5.18 Force Between Two Parallel Wires Carrying Currents ............ 158 5.19 Generalized Faraday s Law ......................................... 158 5.20 What Do Induced Electric Field Lines Look Like? ............... 163 5.21 Lenz s Law .......................................................... 164 5.22 The Guitar Pickup ................................................... 166 5.23 Maxwell s Displacement Current .................................. 167 5.24 Electromagnetic Waves ............................................. 169 5.25 What Is the Medium for Electromagnetic Waves? ................ 174 5.26 The Sources of Electromagnetic Waves ........................... 175 5.27 Terms ................................................................ 177 5.28 Important Equations ................................................ 178 5.29 Problems for Chap. 5................................................ 178 6 The Atom as a Source of Light ............................................ 179 6.1 Atomic Spectra ...................................................... 179 6.2 The Hydrogen Spectrum of Visible Lines ......................... 181 6.3 The Bohr Theory of the Hydrogen Atom .......................... 184 6.4 Quantum Theory .................................................... 190 6.5 Complex Scenarios of Absorption and Emission .................. 195 6.5.1 Rayleigh Scattering ...................................... 196 6.5.2 Resonance Fluorescence ................................. 196 6.5.3 General Fluorescence .................................... 196 6.5.4 Stimulated Emission ..................................... 197 6.6 Is Light a Stream of Photons or a Wave? .......................... 199 6.7 The Connection Between Temperature and Frequency ........... 200 xv¡¡¡ Contents 6.8 Terms ................................................................ 202 6.9 Important Equations ................................................ 202 6.10 Problems for Chap. 6................................................ 203 7 The Principle of Superposition ............................................ 205 7.1 The Wave Produced by Colliding Pulses .......................... 205 7.2 Superposition of Two Sine Waves of the Same Frequency ....... 207 7.3 Two Source Interference in Space .................................. 209 7.3.1 Sound Level with Many Sources ........................ 216 7.3.2 Photons and Two-Slit Interference ...................... 216 7.4 Many-Source Interference .......................................... 217 7.4.1 Gratings .................................................. 217 7.4.2 Diffraction Through a Mesh .......................... 218 7.4.3 X-ray Diffraction of Crystals ............................ 220 7.5 Beats ................................................................. 221 7.6 Terms ................................................................ 224 7.7 Important Equations ................................................ 224 7.8 Problems for Chap. 7................................................ 225 8 Propagation Phenomena ................................................... 231 8.1 Diffraction ........................................................... 231 8.1.1 Scattering of Waves and Diffraction .................... 238 8.1.2 Why Is the Sky Blue? .................................... 240 8.2 Reflection ............................................................ 241 8.2.1 A Complex Surface: A Sand Particle ................... 244 8.3 Reflection and Reflectance ......................................... 245 8.3.1 The Reflectance for a Light Wave ....................... 246 8.3.2 The Reflectance for a Sound Wave ...................... 248 8.4 Refraction ........................................................... 249 8.5 Total Internal Reflection ............................................ 251 8.6 The Wave Theory of Refraction .................................... 252 8.7 Application to Mirages ............................................. 255 8.8 ThePrism ........................................................... 256 8.9 Dispersion ........................................................... 257 8.9.1 Effect of Dispersion on a Prism ......................... 257 8.9.2 Effect of Dispersion on Fiber Optics Communication . 258 8.10 Lenses ............................................................... 259 8.10.1 The Converging Lens .................................... 259 8.10.2 Lens Aberrations ......................................... 260 8.10.3 Image Produced by a Converging Lens ................. 264 8.10.4 Magnification ............................................ 266 8.10.5 Reversibility of Rays: Interchange of Object and Image ..................................... 269 8.10.6 The Diverging Lens ...................................... 269 8.10.7 Determining the Focal Length of a Diverging Lens ...................................... 271 Contents xix 8.11 The Doppler Effect ................................................. 272 8.11.1 Doppler Effect for Waves in a Medium ................. 273 8.11.2 Doppler Effect for Electromagnetic Waves in Vacuum ................................................ 277 8.11.3 Applications of the Doppler Effect ...................... 278 8.12 Polarized Light ................................................... 280 8.12.1 How Can We Obtain a Beam of Polarized Light? ...... 281 8.12.2 Series of Polarizers ...................................... 282 8.12.3 Ideal vs. Real Polarizers ................................. 283 8.12.4 Sample Problems ........................................ 284 8.12.5 Partial Polarization of Reflected Light .................. 285 8.12.6 The Polarization of Scattering Light .................... 286 8.12.7 The Polarizer Eyes of Bees .............................. 286 8.12.8 Using Polarization of EM Radiation in the Study of the Big Bang ............................ 287 8.12.9 Optical Activity .......................................... 287 8.12.10 Our Chiral Biosphere .................................... 291 8.13 Terms ................................................................ 293 8.14 Important Equations ................................................ 293 8.15 Questions and Problems for Chap. 8............................... 294 9 The Ear ...................................................................... 305 9.1 Broad Outline of the Conversion Process .......................... 306 9.2 The Auditory Canal ................................................. 310 9.3 The Eardrum ........................................................ 310 9.4 The Ossicles ......................................................... 311 9.5 Improving on the Impedance Mismatch: Details ............... 313 9.6 The Cochlea ......................................................... 315 9.6.1 Summary ................................................. 318 9.7 Pitch Discrimination ................................................ 319 9.7.1 Some Mathematical Details on Pitch vs. the Peak of the Envelope .................................. 322 9.7.2 Mach s Law of Simultaneous Contrast in Vision ....... 322 9.7.3 Rhythm Theory of Pitch Perception .................... 324 9.8 Terms ................................................................ 325 9.9 Problems for Chap. 9................................................ 326 10 Psychoacoustics ............................................................. 327 10.1 Equal Loudness Curves ............................................. 329 10.2 The Sone Scale of Expressing Loudness ..................... 331 10.3 Loudness from Many Sources ...................................... 334 10.4 Combination Tones and the Nonlinear Response of the Cochlea. 335 10.5 The Blue Color of the Sea and Its Connection with Combination Tones ............................................ 341 10.6 Duration of a Note and Pitch Discrimination ...................... 342 10.7 Fusion of Harmonics: A Marvel of Auditory Processing ......... 344 10.7.1 Mathematica File ........................................ 346 vv Contents Ал 10.8 Additional Psychoacoustic Phenomena ............................ 348 10.9 Terms ................................................................ 349 10.10 Important Equations ................................................ 349 10.11 Problems for Chap. 10.............................................. 349 11 Tuning, Intonation, and Temperament: Choosing Frequencies for Musical Notes ............................................ 353 11.1 Musical Scales ...................................................... 355 11.2 The Major Diatonic Scale .......................................... 358 11.3 Comments Regarding Western Music ............................ 360 11.4 Pythagorean Tuning and the Pentatonic Scale ..................... 362 11.5 Just Tuning and the Just Scale ...................................... 363 11.6 The Just Chromatic Scale ........................................... 365 11.7 Intrinsic Problems with Just Tuning ............................... 367 11.8 Equal Tempered Tuning ............................................ 369 11.9 The Cents System of Expressing Musical Intervals ............... 371 11.10 Debussy s Six-Tone Scale .......................................... 373 11.11 Terms ................................................................ 374 11.12 Important Equations ................................................ 374 11.13 Problems for Chap. 11 .............................................. 375 12 The Eye ...................................................................... 383 12.1 The Cornea and Lens ............................................... 383 12.2 The Iris .............................................................. 386 12.3 The Humorous Liquids of the Eye ............................... 387 12.4 The Retina ........................................................... 387 12.5 Dark Adaptation .................................................... 391 12.6 Depth Perception .................................................... 391 12.7 Terms ................................................................ 393 12.8 Problems for Chap. 12.............................................. 393 13 Characterizing Light Sources Color Filters and Pigments ............ 397 13.1 Characterization of a Light Beam .................................. 397 13.1.1 Spectral Intensity vs. Intensity .......................... 402 13.2 Color Filters ......................................................... 403 13.2.1 Stacking Filters (Filters in Series) ....................... 405 13.3 Pigments ............................................................. 409 13.4 Summary Comments on Filters and Pigments ..................... 409 13.5 Terms ................................................................ 410 13.6 Important Equations ................................................ 411 13.7 Problems for Chap. 13.............................................. 411 14 Theory of Color Vision ..................................................... 413 14.1 A Simplified Version of the Three-Primary Theory ............... 414 14.2 Exploration of Color Mixing with a Computer .................... 416 14.3 Introduction to the Chromaticity Diagram ......................... 419 14.4 Metamers ............................................................ 420 14.5 A Crude Chromaticity Diagram .................................... 421 Contents xxi 14.6 A Chromaticity Diagram of Practical Use ......................... 423 14.6.1 The Units for the Admixture of the Three Primaries ... 424 14.6.2 Tristimulus Values ....................................... 425 14.6.3 Color Coordinates ........................................ 426 14.6.4 On the Significance of the Chromaticity Diagram ..... 426 14.7 The Calculation of Color Coordinates ............................. 432 14.7.1 Color Coordinates of Butter ............................. 435 14.8 Using a Different Set of Primaries ................................. 436 14.8.1 General Features of a Different Set of Primaries ....... 437 14.9 The Standard Chromaticity Diagram of the C. I. E ................ 439 14.10 From Computer RGB Values to Color** .......................... 443 14.11 How Many Colors Are There? ..................................... 445 14.11.1 Limitations of a Broadened Gamut of a Monitor ....... 452 14.12 A Simple Physiological Basis for Color Vision ................... 453 14.13 Color Blindness ..................................................... 458 14.14 After-images ........................................................ 459 14.14.1 Questions for Consideration ............................. 461 14.15 Terms ................................................................ 462 14.16 Important Equations ................................................ 462 14.17 Problems on Chap. 14............................................... 463 A Symbols ...................................................................... 473 В Powers of Ten: Prefixes .................................................... 477 С Conversion of Units and Special Constants .............................. 479 D References for The Physics of Music and Color ......................... 481 E A Crude Derivation of the Frequency of a Simple Harmonic Oscillator* ..................................................... 485 F Numerical Integration of Newton s Equation for a SHO ............ 489 G Magnifying Power of an Optical System .............................. 495 G.I Image with the Naked Eye and with a Magnifying Glass ......... 496 G.2 The Microscope ..................................................... 499 G.3 Problems on Magnifying Power .................................... 500 H Threshold of Hearing, Threshold of Aural Pain, and General Threshold of Physical Pain .............................. 501 I Transformation Between Tables of Color-Matching Functions for Two Sets of Monochromatic Primaries· ............... 507 1.1 Application of the Transformation: Determining an Ideal Set of Primaries ............................................ 509 1.2 Proofof Equations (I.I) and (1.6).................................. 512 1.3 Problems on the Transformation of TCMFs ....................... 518 J Hommage to Pierre-Gilles de Gennes: Art and Science* .............. 521 xxii Contents К MAPPINGS as a Basis for Arriving at a Mutually Agreed Upon Description of Our Observations of the World - Establishing Truths and Facts ....................... 525 K. 1 MAPPINGS as Central to Organizing Human Experience ....... 527 K.2 NUMBERS as a Mapping .......................................... 527 КЗ The Concept of TIME as a Mapping ............................... 528 K.4 Mappings as the Essential Goal of Physics ........................ 530 Index ............................................................................... 533
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spelling	Gunther, Leon Verfasser aut The physics of music and color Leon Gunther New York Springer 2012 xxii, 540 p. Ill., graph. Darst. 24 cm txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references (p. 481-483) and index Musik Music Acoustics and physics Wave-motion, Theory of Colors Physics Physik (DE-588)4045956-1 gnd rswk-swf Farbe (DE-588)4016443-3 gnd rswk-swf Musik (DE-588)4040802-4 gnd rswk-swf Musik (DE-588)4040802-4 s Farbe (DE-588)4016443-3 s Physik (DE-588)4045956-1 s DE-604 Digitalisierung BSB Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024784456&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Gunther, Leon The physics of music and color Musik Music Acoustics and physics Wave-motion, Theory of Colors Physics Physik (DE-588)4045956-1 gnd Farbe (DE-588)4016443-3 gnd Musik (DE-588)4040802-4 gnd
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title	The physics of music and color
title_auth	The physics of music and color
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title_full	The physics of music and color Leon Gunther
title_fullStr	The physics of music and color Leon Gunther
title_full_unstemmed	The physics of music and color Leon Gunther
title_short	The physics of music and color
title_sort	the physics of music and color
topic	Musik Music Acoustics and physics Wave-motion, Theory of Colors Physics Physik (DE-588)4045956-1 gnd Farbe (DE-588)4016443-3 gnd Musik (DE-588)4040802-4 gnd
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