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This textbook provides a guide to the fundamental principles of acoustics in a straightforward manner using a solid foundation in mathematics and physics. It is designed for those who are new to acoustics and noise control, and includes all the necessary material for a comprehensive understanding of the topic. It is written in lecture-note style and can be easily adapted to an acoustics-related one semester course at the senior undergraduate or graduate level. The book also serves as a ready reference for the practicing engineer new to the application of acoustic principles arising in product design and fabrication.
List of contents
Complex Numbers for Harmonic Functions.- Solutions of Acoustic Wave Equation.- Derivation of Acoustic Wave Equation.- Acoustic Intensity and Specific Acoustic Impedance.- Solutions of Spherical Wave Equation.- Acoustic Waves from Spherical Sources.- Boundary Conditions and Mode Shapes.- Resonant Cavities and Acoustic Waveguides.- Power Transmission in Pipelines.- Filters and Resonators.- Sound Pressure Levels and Octave Bands.- Room Acoustics.
About the author
Dr. Hejie Lin is an Engineer at General Motors, Warren, MI, USA; Dr. Turgay Bengisu is a Special Instructor at Oakland University and formerly a Technical Fellow at General Motors, Rochester, MI, USA; Dr. Zissimos P. Mourelatos is a Distinguished University Professor of Mechanical Engineering at Oakland University at Rochester, MI, USA.
