Synopses & Reviews
No branch of classical physics is older in its origins yet more modern in its applications than acoustics. Courses on acoustics very naturally begin with a study of vibrations, as a preliminary to the introduction of the wave equations. Both vibrations and waves, of course, are vastly important to all branches of physics and engineering. But it is very helpful to students to gain an understanding of mechanical waves before trying to comprehend the more subtle and abstract electromagnetic ones.
This undergraduate-level text opens with an overview of fundamental particle vibration theory, and it proceeds to examinations of waves in air and in three dimensions, interference patterns and diffraction, and acoustic impedance, as illustrated in the behavior of horns. Subsequent topics include longitudinal waves in different gases and waves in liquids and solids; stationary waves and vibrating sources, as demonstrated by musical instruments; reflection and absorption of sound waves; speech and hearing; sound measurements and experimental acoustics; reproduction of sound; and miscellaneous applied acoustics. Supplementary sections include four appendixes and answers to problems. Introduction. Appendixes. List of Symbols. References. Index. Answers to Problems.
Synopsis
Vibration and waves are of paramount importance to all branches of physics and engineering, and this undergraduate-level text takes a concrete look at the abstractions and subtleties of mechanical waves.
Synopsis
This undergraduate-level text opens with an overview of fundamental particle vibration theory, and it proceeds to examinations of waves in air and in three dimensions, interference patterns and diffraction, and acoustic impedance, as illustrated in the behavior of horns. Supplementary sections include four appendixes and answers to problems. 1951 edition.
Synopsis
Undergraduate-level text examines waves in air and in three dimensions, interference patterns and diffraction, and acoustic impedance, as illustrated in the behavior of horns. 1951 edition.
Table of Contents
Introduction
1. Fundamental Particle Vibration Theory
2. Plane Waves in Air
3. Waves in Three Dimensions
4. Interference Patterns. Diffraction
5. Acoustic Impedance. Behavior of Horns
6. Longitudinal Waves in Different Gases. Waves in Liquids and Solids
7. Stationary Waves. Vibrating Sources. Musical Instruments
8. Reflection and Absorption of Sound Waves
9. Speech and Hearing.
10. Sound Measurements. Experimental Acoustics
11. Reproduction of Sound
12. Miscellaneous Applied Acoustics
Appendixes
List of Symbols
References
Index.
Answers to Problems