Introduction to Sound: Acoustics for the Hearing and Speech SciencesThis powerful text continues with the same fundamental aim as the previous two editions to not present, but to teach the fundamental concepts of acoustics to students in the speech-language and hearing science. In addition to relocating revised practice problems and answers to a newly created Course Notes and Workbook for Introduction to Sound, the third edition also introduces new features. Supplements Course Notes and Workshop for Introduction to Sound 1-56593-980-8 - 176 pages, softcover, 8 1/2 x 11 |
From inside the book
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Page 8
... moving back and forth— the two tines will always move in opposite directions.1 Displacement From Equilibrium Imagine a microscopic view of the pattern of vibration of the two tines . The position of the fork before a force is applied is ...
... moving back and forth— the two tines will always move in opposite directions.1 Displacement From Equilibrium Imagine a microscopic view of the pattern of vibration of the two tines . The position of the fork before a force is applied is ...
Page 14
... move far - it just falls down . But a wave of disturbance moving along the long row of domi- noes should be clearly visible . An easy way to see wave motion is to observe " the wave " that in recent years has become so popular at many ...
... move far - it just falls down . But a wave of disturbance moving along the long row of domi- noes should be clearly visible . An easy way to see wave motion is to observe " the wave " that in recent years has become so popular at many ...
Page 39
... move from left to right ( shown by the lighter shaded region in the figure ) . At t1 , the first peak ap- peared at ... move down through time t5 , the peaks have moved from left to right . For now , we won't concern ourselves with what ...
... move from left to right ( shown by the lighter shaded region in the figure ) . At t1 , the first peak ap- peared at ... move down through time t5 , the peaks have moved from left to right . For now , we won't concern ourselves with what ...
Contents
The Nature | 2 |
Sound Source Acting on a Medium | 10 |
The Nature of Sound Waves | 11 |
Copyright | |
12 other sections not shown
Common terms and phrases
acoustic amount amplitude angle answer antilog applied bandwidth base calculate called Chapter complex components compression concept constant corresponds curve cycle dB SPL decibels decreases defined density described determine direction displacement distance distortion elasticity energy equal Equation equilibrium example expressed factor Figure filter force fork four frequency function fundamental greater harmonic impedance increases input instantaneous intensity inversely learned length magnitude mass maximal maximum mean measure medium meter molecules motion move movement multiples occurs opposite output panel particle pendulum period phase position problem produces propagation proportional quantity ratio reactance reference reflected relation relative resistance resonant result scale shown shows signal simple sine wave sinusoidal solve sound pressure sound wave spectrum square starting string surface Table tion tube tuning unit velocity vibration waveform wheel white noise zero