STUDY OF BRAINS OK SIX EMINENT SCIENTISTS AND SCHOLARS. 



305 



TABLE B. 

 Measurements of the Brains of Ten Ordinary and Normal Individuals. 

 Tliose lirains were removed promptly after execution by electricity and placed in a fornialdehyde mixture while still firm and fresh, 

 affording an ideal opportunity for securing measurements upon brains which have suffered a minimum of distortion.* 



Name 



Age 



Brain- weight 



Brain-length 



Brain-width 



Cerebral index 



Horizontal circumference 



Width, left hemicerebrum .... 

 Width, right hemicerebrum . . . 

 Left occipito-temporal lengtli . 

 Right oceipito-tomporal length 



Length of callosum 



Percentage of eallosal length . . 

 Left centro-temporal height . . . 

 Right centro-temporal height . 

 Left c'entro-olfactory height .. . 

 Right ccntro-olfactory height . 



Arc Measures: 



Frontal 



Left 



( [' rental art 

 J Parietal an 

 [ Occipital a; 



Right 



arc . 



arc . 



arc 



Frontal arc . . 

 I'arietal arc . 

 Occipital arc 



Cf.rei!1!ai. Indices: 



r l''rnntal index 



Left < I'arietal index 



( Occipital index 



{Frontal index 

 Parietal index 

 Occipital indc-x 



Horizontal Distances: 



(Expressed in eentesimals of the hemicerebral length) 

 From the cephalic point to — 



1. Tip of temporal lobe 



2. Sylvian-presylvian junction 



.3. Ventral end of central fissure 



4. S3'lvian-episylvian junction 



5. Caudal point 



Left 

 I.,ateral - 



Aspect 



Left 



Mesal 



Aspect 



C G. Frontal edge of callosum 



7. Porta (Foramen of Monro) 



S. Dorsal end of central fissure 



9. Dorsal intersection of paracentral f . 



10. Caudal edge of callosum 



11. Occipito-ealcarine junction 



12. Dorsal intersection of occipital f . . . 



Right 



Lateral. 



Aspect 



Tip of temporal lolie 



Sylvian-presylvian junction . . 

 Ventral end of central fissure 

 Sylvian-episylvian junction . . 

 Caudal point 



Tur- 

 kofski 



41 

 1395 



IG.G 



1.3.7 



82.5 



48.5 



(j.8 



0.9 



12.5 



12.5 



0.1 



3G.7 



10.7 



10.7 



8.4 



8.4 



13.5 

 5.5 

 5.5 



13.5 

 5.5 

 5.5 



55.1 

 22.4 

 22.4 

 55.1 

 22.4 

 22.4 



25.4 

 30.2 

 40.9 

 55.5 

 100 



24.2 

 42.0 



59.7 

 G2.7 

 01.5 

 75.7 

 84.0 



24.2 

 29.0 

 42.G 

 G0.9 

 100 



Willis 

 Van 



Wor- 

 mer 



27 

 1340 



1G.8 



13.9 



83.2 



48.5 



7.0 



6.9 



12.8 



12.0 



7.2 



42.2 



10.0 



9.9 



8.4 



8.7 



14.5 

 5.5 

 0.0 



15.2 

 5.3 



55.7 

 21.1 

 23.1 

 58.4 

 20.4 

 21.1 



24.4 

 30.9 

 45.8 

 00.0 

 100 



21.7 

 40.4 

 00.0 

 OG.O 

 04.9 

 75.0 

 85.1 



24.1 

 31.9 

 40.4 

 .54.8 

 100 



Burton 

 Van 

 Wor- 

 mer 



23 

 1358 



17.3 



14.0 



80.9 



50.5 



7.0 



7.0 



13.3 



13.3 



7.2 



41.0 



10.2 



10.2 



8.7 



8.7 



10.0 

 5.2 

 0.0 



10.0 

 5.0 

 0.2 



.58.8 

 19.1 

 22.0 

 58.8 

 18.4 

 22.7 



23.7 

 30.0 

 45.1 



100 



21.4 

 41.6 

 05.3 



72.2 

 04.1 

 70.3 



87.2 



21.9 

 28.3 

 41.0 

 56.0 

 100 



Fred 

 Van 

 Wor- 

 mer 



21 

 1000 



18.3 



14.7 



80.3 



53.0 



7.3 



7.4 



1.3.9 



13.9 



7.2 



39.3 



11.1 



11.3 



8.9 



8.9 



17.0 

 5.7 

 0.8 



17.2 

 5.3 

 7.0 



57.G 

 19.3 

 23.1 

 58.3 

 17.9 

 23.8 



25.0 



28.4 

 44.8 

 00.1 

 100 



22.4 

 40.9 

 00.1 

 05.5 

 G2.8 

 74.3 

 83.0 



22.4 

 33.3 



47.0 

 50.8 

 100 



Gai- 

 mari 



31 

 1340 



10.0 



14.1 



88.1 



49.2 



7.1 



7.0 



12.8 



12.5 



0.0 



41.2 



10.7 



10.0 



9.0 



9.0 



10.0 

 5.5 

 5.5 



10.0 

 5.5 

 5.5 



,59.2 

 20.4 

 20.4 

 59.2 

 20.4 

 20.4 



21.8 

 28.1 

 4.3.1 

 55.0 

 100 



22.5 

 41.2 

 73.1 

 77.5 

 65.0 

 73.1 

 91.9 



21.2 

 30.0 

 40.G 

 53.7 

 100 



Ennis 



30 

 1290 



10.0 



13.2 



79.5 



47.5 



0.4 



0.0 



12.8 



12.3 



7.1 



42.7 



10.5 



10.7 



8.7 



8.9 



14.5 

 5.5 

 5.0 



14.0 

 5.5 

 5.5 



58.0 

 22.0 

 20.0 

 50.0 

 22.0 

 22.0 



24.1 

 32.0 

 48.1 

 59.7 

 100 



22.9 

 42.1 

 66.2 

 09.9 

 65.0 

 79.5 

 85.5 



24.2 

 31.0 

 42.8 

 ,54.6 

 100 



Tobin 



40 

 1520 



17.6 



14.3 



81.2 



51.5 



7.1 



7.2 



13.9 



13.9 



7.4 



42.0 



11.2 



11.3 



9.3 



9.6 



10.5 

 0.5 

 5.0 



1G.5 

 6.2 

 5.3 



58.9 

 23.2 

 17.9 

 58.9 

 22.2 

 18.9 



23.6 

 30.1 

 45.0 

 58.0 

 100 



22.1 

 40.6 

 62.5 



68.2 

 64.2 

 76.1 

 88.0 



20.5 

 20.3 

 40.0 

 54.2 

 100 



Koep- 

 ping 



Berg- 

 strijm 



22 

 1590 



17.9 



14.0 



78.2 



51.7 



7.0 



7.0 



13.8 



13.7 



7.8 



43.0 



11.0 



11.4 



9.5 



9.5 



IG.O 



0.0 



6.0 



16.0 



■ 5.7 



0.3 



57.0 

 21.5 

 21.5 

 57.0 

 20.4 

 22.0 



24.0 

 30.8 

 40.9 

 00.0 

 100 



20.1 

 41.3 

 58.0 

 03.7 

 03.9 

 72.0 

 85.4 



22.4 

 30.3 

 38.2 

 52.2 

 100 



55 

 1490 



10.8 



14.0 



83.3 



50.5 



7.0 



7.0 



13.2 



12.9 



7.0 



40.2 



10.9 



11.6 



9.2 



9.3 



15.5 

 6.0 

 5.5 



15.5 



4.8 

 6.7 



57.4 

 22.2 

 20.4 

 57.4 

 17.8 

 24.8 



25.1 

 32.7 

 45.6 

 66.6 

 100 



22.8 

 42.2 

 70.1 

 73.1 

 63.7 

 73.1 

 89.4 



25.3 

 31.9 

 42.2 

 59.0 

 100 



Bur- 



ness 



45 

 1503 



18.4 



13.4 



73.2 



51.0 



6.6 



0.8 



14.2 



13.9 



8.0 



43.5 



11.0 



ll.l 



9.2 



9.3 



10.0 

 5.0 

 0.0 



15.0 

 CO 

 6.0 



,59.2 

 18.5 

 22.3 

 .55.4 

 22.3 

 22.3 



22.4 

 30.0 

 42.0 

 57.4 

 100 



20.2 

 39.4 



02.9 

 02.9 

 60.0 

 72.1 

 82.5 



24.0 

 28.2 

 41.3 

 57.1 

 100 



Aver- 

 ages 



33 

 1443 



17.2 

 13.9 

 81.0 

 50.2 

 0.93 

 0.98 

 13.3 

 13.1 

 7.26 

 41.3 

 10.8 

 10.9 

 8.9 

 9.0 



15.5 

 5.7 

 5.7 



15.5 

 5.5 

 5.9 



57.7 

 21.0 

 21.3 

 57.7 

 20.4 

 22.1 



24.0 

 30.4 

 44.4 

 60.5 

 100 



22.0 

 41.2 

 03.9 

 G8.2 

 G4.2 

 74.7 

 80.2 



23.0 

 30.0 

 42.2 

 55.9 

 100 



*In a forthcoming treatise on the brains of criminals these and other brains, secured through the courtesy of Mr. C. V. Collins, 

 superintendent of New York prisons, and Warden Addison .Johnson, will be more fully described. 



