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Architectural acoustics /

Architectural Acoustics presents a comprehensive technical overview of the field at a level suitable for working practitioners as well as advanced undergraduate or introductory graduate architecture or engineering course. The book is structured as a logical progression through acoustic interactions....

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Long, Marshall
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam ; Boston : Elsevier/Academic Press, 2006.
Colección:Applications of modern acoustics.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Table of contents
  • PREFACE
  • ACKNOWLEDGMENTS
  • Chapter 1. HISTORICAL INTRODUCTION
  • 1.1 GREEK AND ROMAN PERIOD (650 BC
  • AD 400)
  • 1.2 EARLY CHRISTIAN PERIOD (AD 400-800)
  • 1.3 ROMANESQUE PERIOD (800-1100)
  • 1.4 GOTHIC PERIOD (1100-1400)
  • 1.5 RENAISSANCE PERIOD (1400-1600)
  • 1.6 BAROQUE PERIOD (1600-1750)
  • 1.7 ORIGINS OF SOUND THEORY
  • 1.8 CLASSICAL PERIOD (1750-1825)
  • 1.9 ROMANTIC PERIOD (1825-1900)
  • 1.10 BEGINNINGS OF MODERN ACOUSTICS
  • 1.11 TWENTIETH CENTURY
  • Chapter 2. FUNDAMENTALS OF ACOUSTICS
  • 2.1 FREQUENCY AND WAVELENGTH
  • 2.2 SIMPLE HARMONIC MOTION
  • 2.3 SUPERPOSITION OF WAVES
  • 2.4 SOUND WAVES
  • 2.5 ACOUSTICAL PROPERTIES
  • 2.6 LEVELS
  • 2.7 SOURCE CHARACTERIZATION
  • Chapter 3. HUMAN PERCEPTION AND REACTION TO SOUND
  • 3.1 HUMAN HEARING MECHANISMS
  • 3.2 PITCH
  • 3.3 LOUDNESS
  • 3.4 INTELLIGIBILITY
  • 3.5 ANNOYANCE
  • 3.6 HEALTH AND SAFETY
  • 3.7 OTHER EFFECTS
  • Chapter 4. ACOUSTIC MEASUREMENTS AND NOISE METRICS
  • 4.1 MICROPHONES
  • 4.2 SOUND LEVEL METERS
  • 4.3 FIELD MEASUREMENTS
  • 4.4 BROADBAND NOISE METRICS
  • 4.5 BAND LIMITED NOISE METRICS
  • 4.6 SPECIALIZED MEASUREMENT TECHNIQUES
  • Chapter 5. ENVIRONMENTAL NOISE
  • 5.1 NOISE CHARACTERIZATION
  • 5.2 BARRIERS
  • 5.3 ENVIRONMENTAL EFFECTS
  • 5.4 TRAFFIC NOISE MODELING
  • 5.5 RAILROAD NOISE
  • 5.6 AIRCRAFT NOISE
  • Chapter 6. WAVE ACOUSTICS
  • 6.1 RESONANCE
  • 6.2 WAVE EQUATION
  • 6.3 SIMPLE SOURCES
  • 6.4 COHERENT PLANAR SOURCES
  • 6.5 LOUDSPEAKERS
  • Chapter 7. SOUND AND SOLID SURFACES
  • 7.1 PERFECTLY REFLECTING INFINITE SURFACES
  • 7.2 REFLECTIONS FROM FINITE OBJECTS
  • 7.3 ABSORPTION
  • 7.4 ABSORPTION MECHANISMS
  • 7.5 ABSORPTION BY NONPOROUS ABSORBERS
  • 7.6 ABSORPTION BY RESONANT ABSORBERS
  • Chapter 8. SOUND IN ENCLOSED SPACES
  • 8.1 STANDING WAVES IN PIPES AND TUBES
  • 8.2 SOUND PROPAGATION IN DUCTS
  • 8.3 SOUND IN ROOMS
  • 8.4 DIFFUSE-FIELD MODEL OF ROOMS
  • 8.5 REVERBERANT FIELD EFFECTS
  • Chapter 9. SOUND TRANSMISSION LOSS
  • 9.1 TRANSMISSION LOSS
  • 9.2 SINGLE PANEL TRANSMISSION LOSS THEORY
  • 9.3 DOUBLE-PANEL TRANSMISSION LOSS THEORY
  • 9.4 TRIPLE-PANEL TRANSMISSION LOSS THEORY
  • 9.5 STRUCTURAL CONNECTIONS
  • Chapter 10. SOUND TRANSMISSION IN BUILDINGS
  • 10.1 DIFFUSE FIELD SOUND TRANSMISSION
  • 10.2 STC RATINGS OF VARIOUS WALL TYPES
  • 10.3 DIRECT FIELD SOUND TRANSMISSION
  • 10.4 EXTERIOR TO INTERIOR NOISE TRANSMISSION
  • Chapter 11. VIBRATION AND VIBRATION ISOLATION
  • 11.1 SIMPLE HARMONIC MOTION
  • 11.2 SINGLE DEGREE OF FREEDOM SYSTEMS
  • 11.3 VIBRATION ISOLATORS
  • 11.4 SUPPORT OF VIBRATING EQUIPMENT
  • 11.5 TWO DEGREE OF FREEDOM SYSTEMS
  • 11.6 FLOOR VIBRATIONS
  • Chapter 12. NOISE TRANSMISSION IN FLOOR SYSTEMS
  • 12.1 TYPES OF NOISE TRANSMISSION
  • 12.2 AIRBORNE NOISE TRANSMISSION
  • 12&#