Atmospheric acoustics:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin ; Boston
De Gruyter
[2016]
Beijing Science Press [2016] |
| Schlagworte: | |
| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | xvi, 376 Seiten Illustrationen, Diagramme |
| ISBN: | 9783110311525 9783110311549 |
Internformat
MARC
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| 020 | |a 9783110311525 |9 978-3-11-031152-5 | ||
| 020 | |a 9783110311549 |c SetISBN |9 978-3-11-031154-9 | ||
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| 100 | 1 | |a Yang, Xunren |e Verfasser |0 (DE-588)1100875298 |4 aut | |
| 245 | 1 | 0 | |a Atmospheric acoustics |c Xunren Yang |
| 264 | 1 | |a Berlin ; Boston |b De Gruyter |c [2016] | |
| 264 | 1 | |a Beijing |b Science Press |c [2016] | |
| 264 | 4 | |c © 2016 | |
| 300 | |a xvi, 376 Seiten |b Illustrationen, Diagramme | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
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| 776 | 0 | 8 | |i Erscheint auch als |n Online-Ausgabe, PDF |z 978-3-11-031153-2 |
| 856 | 4 | 2 | |m X:MVB |q text/html |u http://deposit.dnb.de/cgi-bin/dokserv?id=4790813&prov=M&dok_var=1&dok_ext=htm |3 Inhaltstext |
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| 943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-028423122 | |
Datensatz im Suchindex
| _version_ | 1809772344463327232 |
|---|---|
| adam_text |
CONTENTS
PREFACE * VI
FOREWORD * VII
1
INTRODUCTION
*
1
1.1 SCOPE OF THE DISCIPLINE AND HISTORICAL REVIEW * 1
1.2 STRUCTURE AND ACOUSTIC PROPERTIES OF THE ATMOSPHERE _ 5
1.2.1 STRATIFICATION STRUCTURE OF THE ATMOSPHERE * 5
1.2.2 TURBULENCE STRUCTURE OF THE ATMOSPHERE * 7
1.2.3 THEACOUST*CP RO P E RTIE S O FTH E A TM O S P H E RE _ 9
1.3 THERMODYNAMIC RELATIONSHIPS IN THE ATMOSPHERE * 12
1.3.1 EQUATION OF STATE AND ADIABATIC EQUAT*ON _ 12
1.3.2 BAROMETRIC EQUATION AND SCALE HEIGHT
*
ISOTHERMAL ATMOSPHERE AND
ATMOSPHERE WITH CONSTANT TEMPERATURE GRADIENT * 13
1.3.3 POTENTIAL TEMPERATURE AND VAISALA.BRUNT FREQUENCY* 15
1.* FUNDAMENTAL RELATIONS OF ATMOSPHERIC DYNAMICS _ 17
1.^.1 EQUATION OF MOTION * 17
1.4.2 EQUATION OF CONTINUITY
*
EQUATION OF STATE, TENSOR PRESENTATION _ 18
1.4.3 CONSERVATION LAWS * 19
1.4.4 GEOPOTENTIAL ALTITUDE AND CORIOLIS FORCE * 21
1.5 TYPES OF ATMOSPHERIC WAVES * 22
2 BASIC CONCEPTS AND PROCESSING METHODS * 28
2.1 WAVE EQUATION IN HOMOGENEOUS ATMOSPHERE * 28
2.1.1 DERIVATION OF THE WAVE EQUATION _ 28
2.1.2 VELOCITY POTENTIAL (ACOUSTIC POTENTIAL) AND WAVE EQUATION
INCLUDING
QUANTITIES OF SECOND ORDER
*
29
2.1.3 HELMHOLTZ EQUATION * 30
2.2 ENERGY RELATIONS IN ACOUSTIC WAVES
*
31
2.2.1 ENERGY AND ENERGY FLOW DENSITY IN ACOUSTIC WAVES
*
31
2.2.2 MOMENTUM IN ACOUSTIC WAVES AND TIME-AVERAGED VALUES OF ACOUSTIC
PRESSURE * 33
2.2.3 LAGRANGE DENSITY IN ACOUSTIC WAVES * 35
2.3 WAVE EQUATION IN INHOMOGENEOUS ATMOSPHERE* 37
2.3.1 WAVE EQUATION AND SOLUTION-DEFINING CONDITIONS * 37
2.3.2 REVIEW OFTHE EXISTING SOLUTIONS * 39
2.4 WKB APPROXIMATION * 42
2.4.1 GENERAL REMARKS * 42
2.4.2 AIRY FUNCTIONS * 43
* ]
2.5
2.5.1
2.5.2
2.5.3
2.5.4
2.6
2
.
6.1
2
.
6.2
2.6.3
3
3.1
3.1.1
3
.
1.2
3.1.3
3.2
3
.
2.1
3.2.2
3.3
3.3.1
3.3.2
3.3.3
3.4
3.4.1
3.4.2
3.5
3.5.1
3.5.2
3.6
3.6.1
3
.
6.2
3.6.3
3.6.4
3.7
3.7.1
3.7.2
3.7.3
THE WAVE FIELD IN THE PRESENCE OF A TURNING POINT * 45
NORMAL MODE SOLUTIONS
*
47
IMAGE OF VIRTUAL SOURCES * 48
INTEGRAL REPRESENTATION OF THE FIELD
*
49
NNRMALMNHPQ * **
CASES OF ARBITRARY BOUNDARIES * 53
BASIC CONCEPTS OF GEOMETRICAL (RAY) ACOUSTICS * 54
WAVE FRONTS, RAYS AND EIKONAL
*
54
RAY.TRACING EQUATIONS * 56
FERMAT*S PRINCIPLE * 57
SOUND PROPAGATION IN ATMOSPHERE * REFRACTION AND REFLECTION * 60
SOUND PROPAGATION *N QUIESCENT HOMOGENEOUS MEDIA * 61
PARAMETRIC DESCRIPTION OF WAVE FRONTS* 61
VARIATION OF PRINCIPAL RAAII OF CURVATURE ALONG A RAY * 62
CAUSTIC SURFACE * 63
SOUND REFRACTION *N STRATIFIED IN HOMOGENEOUS MEDIA * 64
REFRACTION CAUSED BY SOUND-SPEED GRADIENTS * 64
REFRACTION CAUSED BY WINDSPEED GRADIENTS * 66
ACOUSTIC RAYS *N THE ATMOSPHERE * 68
RAY INTEGRALS * 68
RAYS IN WAVEGUIDES ** 69
.ABNORMAL., PROPAGATION
*
70
AMPLITUDE VARIATIONS *N QUIESCENT MEDIA ** 73
WAVE AMPLITUDE IN QUIESCENT AND HOMOGENEOUS MEDIA
*
73
ENERGY CONSERVATION ALONG RAYS: EXTENSION TO SLOWLY-VARYING
MEDIA * 76
AMPLITUDE VARIATIONS IN MOVING MEDA _ 77
WAVE EQUATION IN MOVING MEDIA * 77
CONSERVATION OF WAVE ACTION QUANTITIES* . 78
SOUND WAVE REFLECTION FROM THE INTERFACE BETWEEN TWO
M E D A * 81
REFLECTION OF PLANE WAVES FROM RIGID BOUNDARIES * 82
REFLECTION OF PLANE WAVES AT PLANES WITH FINITE SPECIFIC ACOUSTIC
IMPEDANCES* 83
LOCALLY-REACTING SURFACES _ 84
SOUND FIELD ABOVE REFLECTING SURFACES * 85
EFFECTS OF GROUND SURFACES * 86
EXPRESSIONS OF SOUND FIELDS ABOVE POROUS HALFSPACE MEDIA * 87
GROUND WAVE AND SURFACE WAVE * 88
FOUR-PARAMETER SEMI-EMPIRICAL EXPRESSION FOR CALCULATING
GROUND IMPEDANCES * 89
3.7.4 EXCESS ATTENUATION DUE TO THE GROUND SURFACES * 92
3.7.5 EFFETS OF TOPOGRAPHY * 92
4 SOUND SCATTERING AND DIFFRACTION IN ATMOSPHERE * 97
4.1 BASIC CONCEPTS OF SCATTERING ** 98
*
.1.1 SCATTERING OF FIXED RIGID OBJECT * 98
4.1.2 SCATTERING CROSS SECTION * 100
4.2 SCATTERING DUE TO NON-HOMOGENEITY * 101
4.2.1 DIFFERENTIAL EQUATION FOR SCATTERING * 101
*
.2.2 INTEGRAL EQUATION FOR SCATTERING * 102
4.2.3 ASYMPTOTIC EXPRESSION FOR SCATTERED WAVES * 102
4.2.4 BORN APPROXIMATION * 103
4.3 INTERACTIONS BETWEEN ATMOSPHERIC TURBULENCES
AND ACOUSTIC WAVES * 105
*
.3.1 SEPARATING ACOUSTIC WAVES FROM TURBULENCE _ 105
4.3.2 WAVE EQUATION IN TURBULENT ATMOSPHERE * 106
4.3.3 INTERACTION MECHANISMS BETWEEN TURBULENCE AND ACOUSTIC
WAVES** 110
4.4 SOUND SCATTERING IN TURBULENT ATMOSPHERE ** 115
4.4.1 SCATTERING CROSS SECTION * 115
4.4.2 POWER RATIO** 116
4.4.3 POWER SPECTRA** 118
4.5 SOUND DIFFRACTION IN QUIESCENT ATMOSPHERE * 120
4.5.1 POINT SOURCE ABOVE A LOCALLY-REACTING SURFACE * 121
4.5.2 SOUND FIELD EXPRESSIONS IN THE SHADOW ZONE* 123
4.5.3 SERIES EXPANSION OF DIFFRACTION FORMULA _ 124
4.5.4 CREEPING WAVE _ 126
4.5.5 GEOMETRIC.ACOUSTICAL INTERPRETATION OF CREEPING WAVES* 128
4.6 SOUND DIFFRACTION IN MOVING ATMOSPHERE * 130
4.6.1 FUNDAMENTAL EQUATIONS AND FORMAL SOLUTIONS** 130
4.6.2 NORMAL MODE EXPANSIONS * 132
4.6.3 ASYMPTOTIC EXPRESSIONS FOR THE EIGEN-VALUES _ 133
4.6.4 ASYMPTOTIC EXPRESSIONS OF THE EIGEN-FUNCTIONS * 135
4.6.5 APPROXIMATED EXPRESSIONS FOR THE DIFFRACTION FIELD * 138
*
.6.6 ANALYSES AND CONCLUSIONS ** 141
5 SOUND ABSORPTION IN ATMOSPHERE * 1^5
5.1 CLASSICAL ABSORPTION * 146
5.1.1 EQUATION OF MOTION FOR VISCOUS FLUID * NAVIER.STOKES EQUATION *
146
5.1.2 EQUATION OF HEAT-CONDUCTION ~ 1^8
5.1.3 ENERGY RELATIONSHIPS OF ACOUSTIC WAVES IN VISCOUS AND
HEAT-CONDUCTING
FLUIDS* *1^9
XH * I CONTENTS
5.1.4 SOUND ABSORPTION COEFFICIENT IN VISCOUS AND HEAT-CONDUCTING
FLUIDS * 151
5.1.5 PRACTICAL CLASSICAL SOUND ABSORPTION COEFFICIENT** 152
5.1.6 WAVE MODES IN VISCOUS AND HEAT-CONDUCTING MEDIA * 153
5.2 MOLECULAR ROTATIONAL RELAXATION ABSORPTION ** 157
5.2.1 ABSORPTION MECHANISM FOR MODES OF THE INTERNAL DEGREES
OF FREEDOM** 157
5.2.2 ROTATIONAL RELAXATION CONTRIBUTIONS * 158
5.2.3 COLLISION REACTION RATE * 159
5.2.4 ABSORPTION COEFFICIENT DUE TO ROTATIONAL RELAXATION * 160
5.3 MOLECULAR VIBRATIONAL RELAXATION ABSORPTION * 161
5.3.1 THE EXCHANGE RATE IN MOLE NUMBERS FOR VIBRATION EXCITED
MOLECULES * 161
5.3.2 DYNAMIC ADIABATIC COMPRESSION MODULUS * 164
5.3.3 VIBRATION RELAXATION SOUND ABSORPTION COEFFICIENT _ 165
5.3.4 VIBRATION RELAXATION FREQUENCIES FOR OXYGEN AND
NITROGEN** 167
5.3.5 MOLE FRACTION (MOLECULAR CONCENTRATION) OF WATER VAPOR * 168
5.4 TOTAL ABSORPTION COEFFICIENT AND ADDITIONAL ABSORPTION _ 170
5.*.1 TOTAL ABSORPTION COEFFICIENT * 170
5.4.2 ADDITIONAL SOUND ABSORPTION ** 171
5.5 SOUND ABSORPTION IN FOGAND SUSPENDED PARTICLES_ 173
5.5.1 HISTORICAL REVIEW * 173
5.5.2 BASIC ANALYSES: MASS TRANSFER PROCESS** 175
5.5.3 FURTHER ANALYSES * 177
6 EFFECTS FROM GRAVITY FIELD AND EARTH*S ROTATION * 181
6.1 WAVE SYSTEM IN QUIESCENT ATMOSPHERE * 182
6.1.1 FUNDAMENTAL EQUATIONS AND FREQUENCY DISPERSION
EQUATION** 182
6.1.2 INTERNAL WAVES * 184
6.1.3 PHASE VELOCITY AND GROUP VELOCITY _ 186
6.2 WAVES IN MOVING INHOMOGENEOUS ATMOSPHERE * 188
6.2.1 FUNDAMENTAL EQUATIONS AND THE PROCESSING PROCEDURES * 188
6.2.2 TRANSITION TO ISOTHERMAL
ATMOSPHERE** 190
6.2.3 VELOCITY DIVERGENCE EQUATION * 192
6.2.4 ENERGY DENSITY AND LAGRANGE DENSITY * 193
6.3 POLARIZATION RELATIONS * 195
6.3.1 PHASE RELATIONS BETWEEN PERTURBED QUANTITIES * 195
6.3.2 AIR-PARCEL ORBITS * 198
6.3.3 COMPLEX POLARIZATION TERMS * 199
6.4
6.4.1
6.4.2
6.4.3
6.5
6.5.1
6.5.2
6.5.3
6.6
6
.
6.1
6
.
6.2
7.1
7.1.1
7.1.2
7.1.3
7.1.4
7.1.5
7.2
7.2.1
7.2.2
7.2.3
7.2.4
7.3
7.3.1
7.3.2
7.3.3
7.4
7.*.1
7.4.2
7.**
7.4*.1
7.4*.2
7.**.3
7.5
ROSSBY WAVES * 200
GEOSTROPHIC WIND * 200
FORMATION OF ROSSBY WAVE * 201
PROPERTIES OF ROSSBY WAVE * 203
EXTERNAL WAVES * 205
CHARACTERISTIC SURFACE WAVES * 205
COMPARISON WITH INTERNAL WAVES * 208
BOUNDARY WAVES * 210
ATMOSPHERIC TIDES * 212
OUTLINES** 212
THEORY** 21*
COMPUTATIONAL ATMOSPHERIC ACOUSTICS * 220
FAST FIELD PROGRAM (FFP) * 221
HELMHOLTZ EQUATION, AXIAL SYMMETRIC APPROXIMATION
*
222
SOLUTIONS OF THE HELMHOLTZ EQUATION
*
226
FIELD AT THE RECEIVER * 228
IMPROVEMENTS TO THE ACCURACY O* NUMERICAL
EVALUATIONS** 231
FFP SOLUTIONS IN HOMOGENEOUS ATMOSPHERE IN TWO
DIMENSIONS * 231
PARABOLIC EQUATION (PE) METHOD I: CRANK.NICHOLSON PARABOLIC EQUATION
(CNPE) METHOD * 233
DERIVATION OF NARROW-ANGLE PE AND WIDE-ANGLE PE * 235
FINITE-DIFFERENCE SOLUTIONS OF NARROW-ANGLE PE AND
WIDE-ANGLE PE * 237
EFFECTS OF DENSITY PROFILE * 240
FINITP-PLPMPNT
SOLUTIONS * 241
PARABOLE EQUATION (PE) METHOD
**
GREEN FUNCTION PARABOLIC EQUATION
(GFPE) METHOD * 242
UNBOUNDED NON-REFRACTING ATMOSPHERE * 242
REFRACTING ATMOSPHERE * 246
THREE-DIMENSIONAL GFPE METHOD * 247
RAY TRACING ** 251
RAY EQUATIONS * 251
CONCRETE EXAMPLE FOR NUMERICAL INTEGRATION - RAY TRACING FOR THE
INFRASONIC WAVES GENERATED BY TYPHOON ** 255
RAY THEORY FOR AN ABSORBING ATMOSPHERE * 257
THE GENERALIZED DISPERSION EQUATION * 258
THE GENERALIZED HAMILTON EQUATION * 261
THE GENERALIZED RAY EQUATIONS AND FERMAFS PRINCIPLE * 263
GAUSSIAN BEAM (GB) APPROACH * 266
8 ACOUSTIC REMOTE SENSING FOR THE ATMOSPHERE * 271
PART ONE ACOUSTIC REMOTE SENSING FOR THE LOWER ATMOSPHERE (TROPOSPHERE)
* 272
81.1 PROBING SYSTEM * 272
81.1.1 MONOSTATIC CONFIGURATION * 272
81.1.2 BISTATIC CONFIGURATION, DOPPLER ECHOSONDE
*
275
81.2 THE PHYSICAL FOUNDATIONS OF ACOUSTIC SOUNDING * 277
81.2.1 THE PRINCIPLE OF PULSE-ECHO SOUNDING THE ATMOSPHERIC
NON-HOMOGENEITIES * 277
81.2.2 SCATTERING VOLUMES DELIMITED BY ELECTRO-ACOUSTIC
TRANSDUCERS** 279
81.2.3 ACOUSTIC RADAR EQUATION
*
281
81.2.4 INCOHERENT SCATTERING: BISTATIC ACOUSTIC SOUNDING
EQUATION** 282
81.2.5 ECHOSONDE EQUATION * 283
81.3 OUTPUTS OF THE ACOUSTIC SOUNDER * 285
81.3.1 THERMAL PLUME DETECTION * 285
81.3.2 MONITORING OF INVERSIONS * 286
81.3.3 SABLE CONDITIONS AND WAVES * 287
81.3.4 QUANTITATIVE COMPARISONS
*
288
81.4 SYSTEMATICAL ALGORITHM FOR ACQUIRING WIND PROMES FROM
SODAR * 290
81.4.1 DOPPLER FREQUENCY SPECTRUM ACQUIRED FROM SODAR ** 290
81.4.2 SPATIAL RESOLUTION OF DOPPLER FREQUENCY SPECTRUM _ 292
81.4.3 MODELING OF WIND VELOCITY PROFILE * 292
81.4.4 WEIGHT-FUNCTION AND COVARIANCE
*
294
81.4.5 APPLICATION EXAMPLES * 295
81.5 PASSIVE REMOTE SENSING * 296
PART TWO ACOUSTIC REMOTE SENSING FOR THE UPPER ATMOSPHERE * 297
811.1 PHYSICAL FOUNDATIONS OF ACOUSTIC REMOTE SENSING FOR UPPER
ATMOSPHERE * - 298
8 1.1
.**
REFRACTION * 298
811.1.2 ABSORPTION** 299
811.1.3 INFERRING UPPER ATMOSPHERIC PROPERTIES FROM ACOUSTIC
MEASUREMENTS * 300
811.2 DETECTING SYSTEMS FOR REMOTE SENSING** 300
811.3 RECOGNITION OF WAVES IN THE ATMOSPHERE * 303
811.4 PASSIVE REMOTE SENSING OF INFRASON
*
*
WAVES EXISTING OBJECT*VELY IN
ATMOSPHERE** 305
811.4.1 GLOBAL INFRASONIC MONITORING NETWORK * 306
811.4.2 SOME PROSPECTS * 308
9 ***-L*NEAR ATMOSPHERIC ACOUSTICS ** 309
9.1 NON LINEAR EFFECTS *N SOUND PROPAGATION * 309
9.1.1 PLANE WAVES IN HOMOGENEOUS MEDIA * 309
9.1.2 SYNOPSIS OF SHOCK WAVES * 312
9.1.3 GENERATION OF HARMONIC WAVES ** 313
9.1.4 NONLINEAR DISSIPATIVE WAVES. BURGER*S EQUATION _ 316
9.1.5 NONLINEAR WAVES PROPAGATING *N INHOMOGENEOUS MEDIA * 318
9.2 SONIC BOOM * 319
9.2.1 FUNDAMENTAL THEORY OF SONIC BOOM * 320
9.2.2 FOCUS OF SONIC BOOM * 324
9.2.3 THICKNESS OF SHOCK WAVE * 325
9.2
.
*
SIMULATING PROGRAMS OF SONIC BOOM ** 325
9.3 RECENT RESEARCHES FOR SOUND WAVES IN ATMOSPHERIC TURBULENCE * 326
9.3.1 INFLUENCES FROM INTERMITTENCE * 327
9.3.2 INFLUENCES FROM ANISOTROPY *N SMALL-SIZED TURBULENCE** 328
9.3.3 INFLUENCE FROM QUASI PERIODIC COHERENT STRUCTURE OF ATMOSPHERE
BOUNDARY LAYER (ABL) ON LOW-FREQUENCY POWER SPECTRA OF BACK-WAVE
SIGNALS * 330
9.3.4 INFLUENCES FROM COHERENT STRUCTURE ON THE PROPAGATION OF PULSES IN
ABL * 330
9.3.5 SOUND SCATTERING FROM ANISOTROPY STRUCTURE IN MID-ATMOSPHERE * 331
9.3.6 INFLUENCES FROM TURBULENCE ON NONLINEAR WAVES * 332
9.4 ATMOSPHERIC SOLITARY WAVES * 334
9.4.1 FUNDAMENTAL EQUATIONS FOR ATMOSPHERIC SOLITARY WAVES * 334
9.4.2 DETECTION OF ATMOSPHERIC SOLITARY WAVES * 338
10 SOUND SOURCES IN ATMOSPHERE * 341
10.1 FUNDAMENTAL SOUND SOURCES * 3*1
10.1.1 MONOPOLE SOURCES * 341
10.1.2 DIPOLE SOURCE
*
342
10.1.3 QUADRUPOLE SOURCES _ 344
1*1*
PISTON SOURCES
*
344
10.1.5 FLUID SOURCES * 3
*
5
10.2 NATURAL SOUND SOURCES * 3^6
10.2.1 OCEAN WAVES * 3*6
10.2.2 HEAVY OBJECTS FALLING DOWN INTO WATER * 352
10.2.3 VIOLENT FIRING * 354
10.2.4 STRONG WIND
**
357
10.2.5 EARTHQUAKE * 359
10.2.6 VOLCANO ERUPTION AND METEORITE FALL * 360
10.2.7 AURORA * 360
10.2.8 OTHERS * 362
10.3 ARTIFICIAL SOUND SOURCES ** 362
10.3.1 AIRPLANES * 362
10.3.2 ROCKETS 362
10.3.3 EXPLOSIONS *N UPPER ATMOSPHERE * 363
10.3.4 NUCLEARTESTS IN ATMOSPHERE** 363
10.3.5 EXPLOSION OF U.S. SPACE SHUTTLE *CHALLENGER" ** 364
REFERENCES * 365 |
| any_adam_object | 1 |
| author | Yang, Xunren |
| author_GND | (DE-588)1100875298 |
| author_facet | Yang, Xunren |
| author_role | aut |
| author_sort | Yang, Xunren |
| author_variant | x y xy |
| building | Verbundindex |
| bvnumber | BV042997840 |
| classification_rvk | UF 6200 UT 6400 |
| ctrlnum | (OCoLC)893439296 (DE-599)DNB1059131005 |
| discipline | Physik |
| format | Book |
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| id | DE-604.BV042997840 |
| illustrated | Illustrated |
| indexdate | 2024-09-10T01:56:41Z |
| institution | BVB |
| isbn | 9783110311525 9783110311549 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-028423122 |
| oclc_num | 893439296 |
| open_access_boolean | |
| owner | DE-29T DE-11 DE-19 DE-BY-UBM DE-83 DE-703 |
| owner_facet | DE-29T DE-11 DE-19 DE-BY-UBM DE-83 DE-703 |
| physical | xvi, 376 Seiten Illustrationen, Diagramme |
| publishDate | 2016 |
| publishDateSearch | 2016 |
| publishDateSort | 2016 |
| publisher | De Gruyter Science Press |
| record_format | marc |
| spelling | Yang, Xunren Verfasser (DE-588)1100875298 aut Atmospheric acoustics Xunren Yang Berlin ; Boston De Gruyter [2016] Beijing Science Press [2016] © 2016 xvi, 376 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Akustik (DE-588)4000988-9 gnd rswk-swf Akustik (DE-588)4000988-9 s DE-604 Erscheint auch als Online-Ausgabe, EPUB 978-3-11-038302-7 Erscheint auch als Online-Ausgabe, PDF 978-3-11-031153-2 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4790813&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028423122&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Yang, Xunren Atmospheric acoustics Akustik (DE-588)4000988-9 gnd |
| subject_GND | (DE-588)4000988-9 |
| title | Atmospheric acoustics |
| title_auth | Atmospheric acoustics |
| title_exact_search | Atmospheric acoustics |
| title_full | Atmospheric acoustics Xunren Yang |
| title_fullStr | Atmospheric acoustics Xunren Yang |
| title_full_unstemmed | Atmospheric acoustics Xunren Yang |
| title_short | Atmospheric acoustics |
| title_sort | atmospheric acoustics |
| topic | Akustik (DE-588)4000988-9 gnd |
| topic_facet | Akustik |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=4790813&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028423122&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT yangxunren atmosphericacoustics |