The Bases of SpeechHarper & Brothers, 1946 - 610 pages |
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Page 104
... frequency is used , another length of the tube must be found to give the maximum resonance . In fact , for each frequency a certain length will be found to be most effective in producing the greatest intensity of tone . If bottles are ...
... frequency is used , another length of the tube must be found to give the maximum resonance . In fact , for each frequency a certain length will be found to be most effective in producing the greatest intensity of tone . If bottles are ...
Page 108
... frequency of about 36 cycles per second ; one of 8 feet , 72 per second.28 The frequency of a sound wave is a purely physical phenom- enon . It has , however , a very definite effect on the psychological experience , or the way we hear ...
... frequency of about 36 cycles per second ; one of 8 feet , 72 per second.28 The frequency of a sound wave is a purely physical phenom- enon . It has , however , a very definite effect on the psychological experience , or the way we hear ...
Page 115
... frequency of the wire mentioned above by one - half ? If all three of these changes were made , what would be the total effect on the frequency ? 3. If a steel wire having a diameter of 0.05 cm . and a length of 90 cm . is stretched ...
... frequency of the wire mentioned above by one - half ? If all three of these changes were made , what would be the total effect on the frequency ? 3. If a steel wire having a diameter of 0.05 cm . and a length of 90 cm . is stretched ...
Contents
The Social Basis of Speech I | 1 |
The Psychological Basis of Speech | 340 |
The Genetic Basis of Speech | 419 |
Copyright | |
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abdominal action American amplitude Appleton-Century Company articulation arytenoid attitudes audience axons basilar membrane become behavior body breath Broca's area called cartilage cerebrum Collect other examples communication complete consonant curve cycles decibels dialect diphthong effect emotional English Epiglottis Exercise fact fibers Figure frequency function human hyoid bone Ibid individual intensity John Samuel Kenyon Journal of Speech language larynx length linguistic listeners Macmillan Company means membrane motives movement muscles nasal nerve neurons object organs overtones person pharynx phonetic pitch posterior pressure pronounced pronunciation Psychology purpose reason reference relation response result ribs social sound waves speaker speaking spinal stimulus stressed syllables Substitution symbols theory things thinking thorax thyroid cartilage timbre tion tone tongue tube tympanic membrane unstressed utterance velum vibration vocal bands vocal folds voice vowel words spelled York