Anatomy and Physiology of Speech |
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Page 105
... lung capacity is 5,000 cc , or the sum of the tidal , com- plemental , and stationary air . For practical purposes ... lung capacity and therefore of respiratory physical fitness . The vital capacity has been variably emphasized in ...
... lung capacity is 5,000 cc , or the sum of the tidal , com- plemental , and stationary air . For practical purposes ... lung capacity and therefore of respiratory physical fitness . The vital capacity has been variably emphasized in ...
Page 106
... lung and low vital capacity does not need to have any in- adequacy of voice . In a study of defective and normal speech groups among children , Carrell ( 1936 ) claimed to observe a difference in vital capacity . He concluded that the ...
... lung and low vital capacity does not need to have any in- adequacy of voice . In a study of defective and normal speech groups among children , Carrell ( 1936 ) claimed to observe a difference in vital capacity . He concluded that the ...
Page 107
... lung has a decided cardiac notch to receive the heart . The diaphragmatic sur- face lies at the base of each lung , and it is concave to fit over the diaphragm . The right lung is divided by two fissures into superior , middle , and ...
... lung has a decided cardiac notch to receive the heart . The diaphragmatic sur- face lies at the base of each lung , and it is concave to fit over the diaphragm . The right lung is divided by two fissures into superior , middle , and ...
Contents
A Survey of the Speech Mechanism | 1 |
Nervous Regulation of Speech | 4 |
Autonomic and Endocrine Regulators of Speech | 46 |
Copyright | |
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abdominal activity anatomy arch artery articulation aryepiglottic folds arytenoid auditory basal ganglia basilar membrane body brain branch breathing called canal cells centers central cerebellum cerebral cerebrum cervical cochlea connective tissue cortex cranial cricoid cricothyroid disorders elevates epiglottis epithelium Eustachian tube external facial frequency frontal function ganglion glands glottis gyrus hard palate hearing hormone hyoid bone impulses inferior innervated internal involved larynx lateral lesions ligament lips lobe lower lung mandible mandibular maxillary medial medulla middle ear motor mouth movements mucosa mucous membrane muscular nasal cavities nasopharynx nerve fibers nervous system neurons nose nucleus oral organ originates paired palatine pharynx phonation pitch posterior posteriorly pressure produce region resonance respiratory ribs sensory septum side sinus sinuses soft palate speech sounds spinal cord structures superior surface teeth temporal thoracic thyroid cartilage tone tongue tonsils trachea tract transverse upper velum vertebrae vibrations vocal folds voice vowels wall