. Quarterly journal of experimental physiology and cognate medical sciences. Fig. 6.—a, chimpanzee 11; left hemisphere, showing lesponses obtained at opened-up parts ofsome sulci. On the free face of the convolutions some of the responses evoked there are markedinto the map to serve for orientation. B, chimpanzee 15 ; right hemisphere reversed, re-sponses from opened-up parts of sulci and from free surface. The animal was of the varietyTroglodytes calvus, and very intelligent. a basis, the rest of the deep contour is given by interpolating determina-tions obtained in other chimpanzee hemispher

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. Quarterly journal of experimental physiology and cognate medical sciences. Fig. 6.—a, chimpanzee 11; left hemisphere, showing lesponses obtained at opened-up parts ofsome sulci. On the free face of the convolutions some of the responses evoked there are markedinto the map to serve for orientation. B, chimpanzee 15 ; right hemisphere reversed, re-sponses from opened-up parts of sulci and from free surface. The animal was of the varietyTroglodytes calvus, and very intelligent. a basis, the rest of the deep contour is given by interpolating determina-tions obtained in other chimpanzee hemispheres. In our observations theposterior boundary of the motor cortex lying hidden in sulcus centralisseems to be more abruptly and sharply delimited than is the anteriormargin of it, lying largely on the free surface of the hemisphere. The motor responses yielded from points buried in sulcus centraliscorresponded for the most part rather closely with the motor responsesyielded by the free surface of centralis anterior of about the samehorizontal level. A good deal of the l

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Keywords: ., bookcentury1900, bookdecade1900, bookidqua, booksubjectphysiology