Light science: physics and the visual arts
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | German |
| Veröffentlicht: |
New York ; Berlin ; Heidelberg ; Barcelona ; Hong Kong ; London
Springer
1999
|
| Schriftenreihe: | Undergraduate texts in contemporary physics
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben |
| Beschreibung: | XV, 442, [24] S. Ill., graph. Darst. |
| ISBN: | 0387988270 |
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| 245 | 1 | 0 | |a Light science |b physics and the visual arts |c Thomas D. Rossing ; Christopher J. Chiaverina |
| 264 | 1 | |a New York ; Berlin ; Heidelberg ; Barcelona ; Hong Kong ; London |b Springer |c 1999 | |
| 300 | |a XV, 442, [24] S. |b Ill., graph. Darst. | ||
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| 490 | 0 | |a Undergraduate texts in contemporary physics | |
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Datensatz im Suchindex
| _version_ | 1804127606164946944 |
|---|---|
| adam_text | LIGHT SCIENCE PHYSICS AND THE VISUAL ARTS THOMAS D. ROSSING CHRISTOPHER
J. CHIAVERINA WITH 225 ILLUSTRATIONS WJ SPRINGER CONTENTS PREFACE VII 1
OUR WORLD OF LIGHT AND COLOR 1 1.1 RAINBOWS 2 1.2 BLUE SKIES AND RED
SUNSETS 5 1.3 WHY CLOUDS ARE WHITE 5 1.4 THE COLOR OF WATER 6 1.5 GREEN
LEAVES OF SUMMER, CRIMSON LEAVES OF AUTUMN 7 1.6 WHAT IS COLOR? 7 1.7
MIXING COLORS BY ADDITION 9 1.8 MIXING COLORS BY SUBTRACTION 10 1.9
COLOR IN ART 12 1.10 SHADOWS 13 1.11 PINHOLE CAMERA 15 1.12 SUMMARY 16 2
THE MYSTERY OF LIGHT 23 2.1 THE NATURE OF LIGHT: PARTICLES OR WAVES? 23
2.2 WAVES 24 2.3 PROGRESSIVE WAVES 25 2.4 IMPULSIVE WAVES: REFLECTION 25
2.5 SUPERPOSITION AND INTERFERENCE 29 2.6 STANDING WAVES 30 2.7
ELECTROMAGNETIC WAVES 31 2.8 SPEED OF LIGHT 32 2.9 THE PARTICLE NATURE
OF LIGHT: OBSERVING PHOTONS 34 2.10 WAVE PROPAGATION IN TWO AND THREE
DIMENSIONS 35 IX X CONTENTS 2.11 THE DOPPLER EFFECT 37 2.12 WATER WAVES
38 2.13 SUMMARY 41 3 REFLECTION, MIRRORS, AND KALEIDOSCOPES 49 3.1
IMAGES FORMED BY PLANE AND CURVED MIRRORS 51 3.2 CONCAVE MIRRORS 55 3.3
CONVEX MIRRORS 59 3.4 ANAMORPHIC ART 60 3.5 KALEIDOSCOPES 62 3.6 OTHER
APPLICATIONS OF MIRRORS IN THE VISUAL ARTS 65 3.7 MIRRORS IN THE
PERFORMING ARTS: ONE-WAY MIRRORS 69 3.8 SUMMARY 71 4 REFRACTION OF LIGHT
79 4.1 BENDING OF LIGHT AT A BOUNDARY 79 4.2 SNELL S LAW 81 4.3
DISPERSION 82 4.4 TOTAL INTERNAL REFLECTION 83 4.5 DIAMONDS 86 4.6
LENSES 86 4.7 IMAGE FORMATION BY LENSES 87 CONVERGING LENS 88 DIVERGING
LENS 90 STOPPED LENS 91 4.8 SIMPLE CAMERAS 92 4.9 THE HUMAN EYE 93 4.10
TELESCOPES AND MICROSCOPES 95 4.11 SUMMARY 97 5 INTERFERENCE AND
DIFFRACTION 105 5.1 INTERFERENCE OF WAVES FROM TWO IDENTICAL SOURCES 105
5.2 LIGHT PASSING THROUGH TWO SLITS: YOUNG S EXPERIMENT 106 5.3
INTERFERENCE IN THIN FILMS 108 5.4 MICHELSON INTERFEROMETER ILL 5.5
APPLICATIONS OF INTERFERENCE ILL ANTIREFLECTION COATINGS ILL MULTILAYER
MIRRORS 112 MULTILAYER INTERFERENCE FILTERS 113 5.6 DIFFRACTION 113 5.7
COMBINED INTERFERENCE AND DIFFRACTION 116 5.8 HOW DIFFRACTION LIMITS
RESOLUTION 119 CONTENTS XI 5.9 MULTIPLE SLITS AND GRATINGS 120 5.10 3-D
WITH JUMPING COLORS 121 5.11 SUMMARY 121 6 LIGHT SOURCES 129 6.1
BLACKBODY RADIATION 129 6.2 SPECTRA OF LIGHT SOURCES 131 6.3 SPECTRAL
SENSITIVITY OF THE EYE 132 6.4 MEASURING ILLUMINATION 133 6.5 ATOMS 134
6.6 FLUORESCENCE AND PHOSPHORESCENCE 136 6.7 LASER LIGHT 137 6.8
LIGHT-EMITTING DIODES 140 6.9 GAS-FILLED ARC LAMPS 142 6.10 SUMMARY 143
7 POLARIZED LIGHT 151 7.1 POLARIZATION BY SELECTIVE ABSORPTION 152 LAW
OF MALUS 154 THREE POLAROID FILTERS 155 7.2 POLARIZATION BY REFLECTION
155 7.3 POLARIZATION BY DOUBLE REFRACTION: BIREFRINGENCE 157 7.4
POLARIZATION BY SCATTERING 159 7.5 THREE-DIMENSIONAL IMAGES 160 7.6 WAVE
PLATES T. 162 7.7 PHOTOELASTICITY 163 7.8 OPTICAL ACTIVITY 163 7.9
APPLICATIONS OF POLARIZED LIGHT IN ART 165 7.10 SUMMARY 166 8 COLOR
VISION 173 8.1 SPECTRAL COLOR 174 8.2 PHOTORECEPTORS IN THE EYE 176 8.3
ADDITIVE COLOR MIXING (REVISITED) 178 8.4 TRANSMISSION AND REFLECTION OF
COLORED LIGHT: SUBTRACTIVE COLOR MIXING REVISITED 180 SPECTRAL AND
MONOCHROMATIC FILTERS 181 SPECTRAL POWER DISTRIBUTION OF FILTERED LIGHT
182 SPECTRAL REFLECTANCE 183 8.5 COLOR PERCEPTION 184 HOW MANY COLORS
CAN WE SEE? 184 CONTENTS AFTERIMAGES 185 CONTRAST 185 COLOR CONSTANCY
186 8.6 PAINTS AND INKS 187 HALFTONE PRINTING 187 FOUR-COLOR PRINTING
187 8.7 COLOR SYSTEMS 188 8.8 THEORIES OF COLOR VISION 192 8.9 SOURCES
OF COLOR 193 8.10 COLORED GLASS 194 8.11 GLAZES AND ENAMELS 194 8.12
PAINT 195 8.13 SUMMARY 196 HOLOGRAPHY 203 9.1 TRANSMISSION HOLOGRAMS 204
VIRTUAL AND REAL IMAGES 205 TWO-BEAM TRANSMISSION HOLOGRAMS 206 9.2
REFLECTION HOLOGRAMS 207 BRAGG REFLECTION 208 9.3 TRANSFER HOLOGRAMS 209
RAINBOW (SLIT-TRANSFER) HOLOGRAMS 209 9.4 PHASE HOLOGRAMS 210 9.5 COLOR
HOLOGRAMS 210 LIPPMANN COLOR HOLOGRAMS 211 MULTICOLOR RAINBOW HOLOGRAMS
212 PSEUDOCOLOR THROUGH SHRINKAGE 212 9.6 MULTIPLE SCENES 213 9.7
HOLOGRAPHIC STEREOGRAMS 213 9.8 EMBOSSED HOLOGRAMS 214 9.9 HOLOGRAPHIC
INTERFEROMETRY 214 REAL-TIME INTERFEROMETRY 215 DOUBLE-EXPOSURE
INTERFEROMETRY 215 TIME-AVERAGED INTERFEROMETRY 216 9.10 TV HOLOGRAPHY
217 9.11 PHOTOPOLYMERS 220 9.12 COMPUTER-GENERATED HOLOGRAMS 220 9.13
SUMMARY 220 PHOTOGRAPHY 225 10.1 EVOLUTION OF PHOTOGRAPHY 225 10.2
CAMERAS 227 CONTENTS XIII 10.3 FOCAL LENGTHS, /^NUMBERS, AND FIELD OF
VIEW 229 10.4 FILM 232 10.5 COLOR FILM 234 COLOR REVERSAL FILMS 235
COLOR NEGATIVE FILMS 236 INSTANT COLOR FILMS 237 10.6 LIGHTING FOR COLOR
PHOTOGRAPHY 237 10.7 HIGH-SPEED FLASH PHOTOGRAPHY 237 10.8 DIGITAL
PHOTOGRAPHY 240 10.9 SUMMARY 240 11 COMPUTER IMAGES 245 11.1 EVOLUTION
OF COMPUTER IMAGING 245 11.2 WHAT IS A COMPUTER? 249 11.3 BITS AND BYTES
251 11.4 GRAPHIC DISPLAYS 252 11.5 SOFTWARE 252 11.6 THE IMAGING PROCESS
253 11.7 COMPUTER-AIDED DESIGN 256 11.8 COMPUTER ANIMATION 257 11.9
MOTION CAPTURE AND PERFORMANCE ANIMATION: DIGITAL PUPPETS .. 258 11.10
VISUAL EFFECTS FOR TITANIC 259 11.11 SUMMARY 260 12 OPTICAL RECORDING,
COMMUNICATION, AND PHOTONICS 263 12.1 OPTICAL STORAGE AND THE COMPACT
DISC 263 12.2 RECORDABLE COMPACT DISCS 266 12.3 DVD 267 DVD FOR MOVIES
AND VIDEO 267 DVD FOR COMPUTERS 269 DVD FOR AUDIO 269 12.4 OPTICAL
COMMUNICATION 269 12.5 OPTICAL COMPUTING 270 12.6 OPTICAL SCANNERS 271
12.7 HOLOGRAPHIC MEMORIES 272 12.8 THE MOUSE 273 12.9 THE FUTURE OF
PHOTONICS 274 12.10 SUMMARY 276 13 SYMMETRY IN ART AND NATURE 281 13.1
TRANSLATIONAL SYMMETRY 281 13.2 ROTATIONAL SYMMETRY 283 XIV CONTENTS
13.3 REFLECTION SYMMETRY 286 13.4 INVERSION SYMMETRY 286 13.5 SNOWFLAKES
288 13.6 RIGHT-HAND AND LEFT-HAND SYMMETRY 289 CHIRALITY AND LIFE 291
SPIRALS AND PROPELLERS 291 13.7 SYMMETRY AND CONSERVATION LAWS 292 13.8
SYMMETRY OF TILES 295 13.9 BORDER ART: CLASSES OF TRANSLATIONAL SYMMETRY
296 13.10 DECORATIVE PATTERNS: CLASSES OF PLANAR SYMMETRY 297 13.11
SUMMARY 299 14 VISUAL PERCEPTION AND ILLUSIONS 303 14.1 VISUAL ILLUSIONS
304 14.2 EVERYDAY ILLUSIONS 304 14.3 CLASSIFYING ILLUSIONS 307 14.4
AMBIGUOUS FIGURES 310 14.5 DISTORTION ILLUSIONS 312 14.6 IMPOSSIBLE
FIGURES 316 14.7 THE GRAND ILLUSION: HOW ARTISTS PRODUCE A SENSE OF
DEPTH 318 AERIAL PERSPECTIVE AND RAYLEIGH SCATTERING 320 SHADOWS AND
ILLUMINATION 322 THE MAGIC OF LINEAR PERSPECTIVE 323 THE USE OF DEPTH
CUES: FROM THE SUBLIME TO THE IMPOSSIBLE 324 14.8 SUMMARY 327 APPENDIX A
NUMERICAL ANSWERS TO ODD-NUMBERED EXERCISES 333 APPENDIX * STANDARD
INTERNATIONAL (SI) UNITS OF MEASUREMENT 335 APPENDIX * SCIENTIFIC OR
EXPONENTIAL NOTATION 337 APPENDIX D MATHEMATICAL HELPS 339 APPENDIX E
GRAPHS 340 APPENDIX F GLOSSARY 342 APPENDIX G MATERIALS IN PAINTINGS 353
APPENDIX H ANALYSIS OF ART USING PHYSICS AND CHEMISTRY 359 APPENDIX I
CONSERVATION AND RESTORATION OF ART 361 CONTENTS XV APPENDIX J
LABORATORY EXPERIMENTS 365 EXPERIMENT 1.1 EXPLORING COLOR 365 EXPERIMENT
1.2 SHADOWS AND LIGHT RAYS 368 EXPERIMENT 2.1 WAVES ON A COILED SPRING
(SLINKY*) 370 EXPERIMENT 2.2 TRANSVERSE AND LONGITUDINAL WAVES IN ONE
DIMENSION 372 EXPERIMENT 2.3 STANDING WAVES ON A WIRE 374 EXPERIMENT 2.4
WAVES IN TWO DIMENSIONS (RIPPLE TANK) 375 EXPERIMENT 3.1 LAW OF
REFLECTION AND PLANE MIRRORS 378 EXPERIMENT 3.2 CONSTRUCT A KALEIDOSCOPE
382 EXPERIMENT 3.3 IMAGE FORMATION BY CONCAVE MIRRORS 385 EXPERIMENT 4.1
REFRACTION AND TOTAL INTERNAL REFLECTION 387 EXPERIMENT 4.2 CONVERGING
LENS 390 EXPERIMENT 4.3 SIMPLE MAGNIFIER AND TELESCOPE 392 EXPERIMENT
5.1 DIFFRACTION AND INTERFERENCE OF WATER WAVES 393 EXPERIMENT 5.2
DIFFRACTION GRATING 394 EXPERIMENT 5.3 DIFFRACTION FROM TRACKS OF A
COMPACT DISC 396 EXPERIMENT 5.4 MICHELSON INTERFEROMETER 398 EXPERIMENT
6.1 SPECTRUM ANALYSIS WITH A PRISM SPECTROMETER 399 EXPERIMENT 6.2
SPECTRUM ANALYSIS WITH A DIFFRACTION GRATING 400 EXPERIMENT 7.1
EXPLORATION OF POLARIZED LIGHT 401 EXPERIMENT 8.1 COLOR PERCEPTION 405
EXPERIMENT 8.2 MIXING PIGMENTS: SUBTRACTIVE COLOR MIXING 410 EXPERIMENT
9.1 MAKING A REFLECTION HOLOGRAM 412 EXPERIMENT 9.2 MAKING A
TRANSMISSION HOLOGRAM 413 EXPERIMENT 9.3 MAKING A CYLINDRICAL HOLOGRAM
416 EXPERIMENT 9.4 HOLOGRAPHIC IMAGES 417 EXPERIMENT 10.1 EXPLORING A
SINGLE-USE CAMERA WITH BUILT-IN FLASH ! 418 EXPERIMENT 10.2 FIELD OF
VIEW AND DEPTH OF FIELD OF A CAMERA LENS 421 EXPERIMENT 13.1 SYMMETRY
EXPLORATION 421 NAME INDEX 427 SUBJECT INDEX 431
|
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| author | Rossing, Thomas D. 1929- Chiaverina, Christopher J. |
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| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 535 - Light and related radiation |
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| discipline | Physik |
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| id | DE-604.BV012918099 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T18:36:01Z |
| institution | BVB |
| isbn | 0387988270 |
| language | German |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-008793745 |
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| physical | XV, 442, [24] S. Ill., graph. Darst. |
| publishDate | 1999 |
| publishDateSearch | 1999 |
| publishDateSort | 1999 |
| publisher | Springer |
| record_format | marc |
| series2 | Undergraduate texts in contemporary physics |
| spelling | Rossing, Thomas D. 1929- Verfasser (DE-588)112601340 aut Light science physics and the visual arts Thomas D. Rossing ; Christopher J. Chiaverina New York ; Berlin ; Heidelberg ; Barcelona ; Hong Kong ; London Springer 1999 XV, 442, [24] S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Undergraduate texts in contemporary physics Literaturangaben Optik Color Light Farbenlehre (DE-588)4113517-9 gnd rswk-swf Optik (DE-588)4043650-0 gnd rswk-swf Optik (DE-588)4043650-0 s DE-604 Farbenlehre (DE-588)4113517-9 s Chiaverina, Christopher J. Verfasser aut GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008793745&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Rossing, Thomas D. 1929- Chiaverina, Christopher J. Light science physics and the visual arts Optik Color Light Farbenlehre (DE-588)4113517-9 gnd Optik (DE-588)4043650-0 gnd |
| subject_GND | (DE-588)4113517-9 (DE-588)4043650-0 |
| title | Light science physics and the visual arts |
| title_auth | Light science physics and the visual arts |
| title_exact_search | Light science physics and the visual arts |
| title_full | Light science physics and the visual arts Thomas D. Rossing ; Christopher J. Chiaverina |
| title_fullStr | Light science physics and the visual arts Thomas D. Rossing ; Christopher J. Chiaverina |
| title_full_unstemmed | Light science physics and the visual arts Thomas D. Rossing ; Christopher J. Chiaverina |
| title_short | Light science |
| title_sort | light science physics and the visual arts |
| title_sub | physics and the visual arts |
| topic | Optik Color Light Farbenlehre (DE-588)4113517-9 gnd Optik (DE-588)4043650-0 gnd |
| topic_facet | Optik Color Light Farbenlehre |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008793745&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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