Experiments in Hearing |
From inside the book
Results 1-3 of 79
Page 238
... magnitude , as in the magnitude of sound applied to the ear , there is a corresponding increase in sensory intensity . It was Fechner who developed a method by which the relation between these two magnitudes may be worked out . This ...
... magnitude , as in the magnitude of sound applied to the ear , there is a corresponding increase in sensory intensity . It was Fechner who developed a method by which the relation between these two magnitudes may be worked out . This ...
Page 570
... magnitude of the pressure sensation increased until at 3 cm they were almost independent of each other , and the magnitude of each was as large as when only one tip of the compasses was pressed against the skin . The same results were ...
... magnitude of the pressure sensation increased until at 3 cm they were almost independent of each other , and the magnitude of each was as large as when only one tip of the compasses was pressed against the skin . The same results were ...
Page 615
... magnitude produced by the points rises much more rapidly than the " loudness " produced by the frame . At higher magnitude levels , however , the steep slope of the two - point magnitude flattens out . As the distance between the two ...
... magnitude produced by the points rises much more rapidly than the " loudness " produced by the frame . At higher magnitude levels , however , the steep slope of the two - point magnitude flattens out . As the distance between the two ...
Contents
Problems of Auditory Research | 3 |
The Anatomy of the Ear | 11 |
Anatomical Techniques | 19 |
Copyright | |
13 other sections not shown
Other editions - View all
Common terms and phrases
adjusted amplitude appears attenuation auditory basilar membrane beats bone cells close cochlear partition conduction constant continuous curve decrease determined difference limen direction displacement distance eardrum effect elastic electrical electrode equal excitation experiments fact fatigue field Figure fluid force frequency further give given head hearing increase indicated intensity lateral length loudness lower magnitude maximum means measurements meatus mechanical method microphonics middle moved movements necessary nerve normal observed obtained opening organ pattern phase position possible potential present produced pulses relation relative represents resistance resonance rotating round seems seen sensation separate shown in Fig shows side skin sound pressure stapes stimulation subjects surface switch theory threshold tion tone traveling tube variations varied various vibrations vibratory voltage volume wall waves whole window