Description
Acoustics (3rd Ed., 3rd ed. 2019)
An Introduction to Its Physical Principles and Applications
Author: Pierce Allan D.
Language: EnglishSubjects for Acoustics:
768 p. · 15.5x23.5 cm · Hardback
Description
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/li>Biography
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Preface
List of Symbols
Chapter 1 The Wave Theory of Sound
1-1 A Little History
1-2 The Conservation of Mass
1-3 Euler's Equation of Motion for a Fluid
1-4 Pressure-Density Relations
1-5 Equations of Linear Acoustics
1-6 The Wave Equation
1-7 Plane Traveling Waves
1-8 Waves of Constant Frequency
1-9 Speed of Sound and Ambient Density
1-10 Adiabatic versus Isothermal Sound Speeds
1-11 Acoustic Energy, Intensity, and Source Power
1-12 Spherical Waves
Problems
Chapter 2 Quantitative Measures of Sound
2-1 Frequency Content of Sounds
2-2 Proportional Frequency Bands
2-3 Levels and the Decibel
2-4 Frequency Weighting and Filters
2-5 Combining of Levels
2-6 Mutually Incoherent Sound Sources
2-7 Fourier Series and Long-Duration Sounds
2-8 Transient Waveforms
2-9 Transfer Functions
2-10 Stationary Ergodic Processes
2-11 Bias and Variance
Problems
Chapter 3 Reflection, Transmission, and Excitation of Plane Waves
3-1 Boundary Conditions at Impenetrable Surfaces
3-2 Plane-Wave Reflection at a Flat Rigid Surface
3-3 Specific Acoustic Impedance
3-4 Radiation of Sound by a Vibrating Piston within a Tube
3-5 Sound Radiation by Traveling Flexural Waves
3-6 Reflection and Transmission at an Interlace between Two Fluids
3-7 Multilayer Transmission and Reflection
3-8 Transmission through Thin Solid Slabs, Plates, and Blankets
Problems
Chapter 4 Radiation from Vibrating Bodies
4-1 Radially Oscillating Sphere
4-2 Transversely Oscillating Rigid Sphere
4-3 Monopoles and Green's Functions
4-4 Dipoles and Quadrupoles
4-5 Uniqueness of Solutions of Acoustic Boundary-Value Problems
4-6 The Kirchhoff-Helmholtz Integral Theorem
4-7 Sound Radiation from Small Vibrating Bodies4-8 Radiation from a Circular Disk
4-9 Reciprocity in Acoustics
4-10 Transducers and Reciprocity
Problems
Chapter 5 Radiation from Sources Near and on Solid Surfaces
5-1 Sources near Plane Rigid Boundaries
5-2 Sources Mounted on Walls: The Rayleigh Integral; Fresnel-Kirchhoff Theory of Diffraction by an Aperture
5-3 Low-Frequency Radiation from Sources Mounted on Walls
5-4 Radiation Impedance of Baffled-Piston Radiators
5-5 Far-Field Radiation from Localized Wall Vibrations
5-6 Transient Solution for Baffled Circular Piston
5-7 Field on and near the Symmetry Axis
5-8 Transition to the Far Field
Problems
Chapter 6 Room Acoustics
6-1 The Sabine-Franklin-Jaeger Theory of Reverberant Rooms
6-2 Some Modifications
6-3 Applications of the Sabine-Franklin-Jaeger Theory
6-4 Coupled Rooms and Large Enclosures
6-5 The Modal Theory of Room Acoustics
6-6 High-Frequency Approximations
6-7 Statistical Aspects of Room Acoustics
6-8 Spatial Correlations in Diffuse Sound Fields
Problems
Chapter 7 Low-Frequency Models of Sound Transmission
7-1 Guided Waves
7-2 Lumped-Parameter Models
7-3 Guidelines for Selecting Lumped-Parameter Models
7-4 Helmholtz Resonators and Other Examples7-5 Orifices
7-6 Estimation of Acoustic Inertances and End Corrections
7-7 Mufflers and Acoustic Filters
7-8 Homs
Problems
Chapter 8 Ray Acoustics
8-1 Wavefronts, Rays, and Fermat's Principle
8-2 Rectilinear Sound Propagation
8-3 Refraction in Inhomogeneous Media
8-4 Rays in Stratified Media
8-5 Amplitude Variation along Rays
8-6 Wave Amplitudes in Moving Media
8-7 Source above an Interface
8-8 Reflection from Curved Surfaces
Problems
Chapter 9 Scattering and Diffraction
9-1 Basic Scattering Concepts
9-2 Monostatic and Bistatic Scattering-Measurement Configurations
9-3 The Doppler Effect
9-4 Acoustic Fields near Caustics
9-5 Shadow Zones and Creeping Waves
9-6 Source or Listener on the Edge of a Wedge
9-7 Contour-Integral Solution for Diffraction by a Wedge
9-8 Geometrical-Acoustic and Diffracted-Wave Contributions for the Wedge Problem
9-9 Applications of Wedge-Diffraction Theory
Problems
Chapter 10 Effects of Viscosity and Other Dissipative Processes
10-1 The Navier-Stokes-Fourier Model
10-2 Linear Acoustic Equations and Energy Dissipation
10-3 Vorticity, Entropy, and Acoustic Modes10-4 Acoustic Boundary-Layer Theory
10-5 Attenuation and Dispersion in Ducts and Thin Tubes
10-6 Viscosity Effects on Sound Radiation
10-7 Relaxation Processes
10-8 Absorption of Sound
Problems
Chapter 11 Nonlinear Effects in Sound Propagation
11-1 Nonlinear Steepening
11-2 Generation of Harmonics
11-3 Weak-Shock Theory
11-4 N Waves and Anomalous Energy Dissipation
11-5 Evolution of Sawtooth Waveforms
11-6 Nonlinear Dissipative Waves
11-7 Transition to Old Age
11-8 Nonlinear Effects in Converging and Diverging Waves
11-9 N Waves in Inhomogeneous Media; Spherical Waves11-10 Ballistic Shocks; Sonic Booms
Problems
Indexes
Name Index
Subject IndexAllan D. Pierce was born in 1936 and spent his early years in Iowa, Kansas, and New Mexico. After receiving a Ph.D. in Physics from MIT, he was employed by RAND (1961-1963) and Avco (1963-1966). His work during these years was concerned primarily with the analysis of infrasonic waveforms generated by thermonuclear explosions, and this broadened into a life-long interest in all aspects of physical acoustics, applied mechanics, vibrations, and wave physics. From 1966 to 2012 he held a succession of professorial appointments — at MIT (1966-1973), Georgia Tech (1973-1988), Penn State (1988-1993), and Boston University (1993-2012). He retired from BU in 2012, and founded the Cape Cod Institute for Science and Engineering in 2017. He is a Fellow of the Acoustical Society of America and of the American Society of Mechanical Engineers, and is a recipient of the ASA Silver Medal in Physical Acoustics and the ASA Gold Medal, the ASME Per Bruel Gold Medal, the Rossing Prize for Acoustics Education, and the Gold Medal of the Acoustical Foundation of India. Over the years he has had many editorial positions, including being the founding co-Editor-in-Chief of the Journal of Computational Acoustics and the Editor-in-Chief of the Acoustical Society of America. He was the founding editor of Proceedings of Meetings in Acoustics.
Features a wealth of end-of-chapter problems and answers
Written by the former Editor-in-Chief of the Acoustical Society of America
Represents essential reading for all practicing and aspiring acousticians
Facilitates instructional flexibility regarding topics covered, length of course, and interests of students
Includes a new foreword and preface speaking to the book's continuing importance
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