Carpenter's principles of human physiology . em., 1862, ; Funke, Physiologie, 4th edit. 1863, p. 45; Bojanowski, Siebold, and KollikersZeitschrift, Band xii. 1862, p. 312 ; Eollett, Molescbotts Untersuchung, 1863, p. 22 ;Bottcher, Vircbows Archiv, 1865, p. 126 and p. 372; Zawarykin, Sitzungsbericbte Akad. zu Wien, 1865, p. 151; Gwosdew, idem., 1866; Hoppe-Seyler, , 1867, p. 298 ; Kiibne, Physiolog. Chemie, 1868, p. 188, et seq.; Thudicbum, Centralblatt, 1869, p. 1; Preyer, Die Blutkrystalle, Jena, 1871, -which last containsall the references up to that date,
Carpenter's principles of human physiology . em., 1862, ; Funke, Physiologie, 4th edit. 1863, p. 45; Bojanowski, Siebold, and KollikersZeitschrift, Band xii. 1862, p. 312 ; Eollett, Molescbotts Untersuchung, 1863, p. 22 ;Bottcher, Vircbows Archiv, 1865, p. 126 and p. 372; Zawarykin, Sitzungsbericbte Akad. zu Wien, 1865, p. 151; Gwosdew, idem., 1866; Hoppe-Seyler, , 1867, p. 298 ; Kiibne, Physiolog. Chemie, 1868, p. 188, et seq.; Thudicbum, Centralblatt, 1869, p. 1; Preyer, Die Blutkrystalle, Jena, 1871, -which last containsall the references up to that date, and gives the fullest account yet published. t Virchows Archiv, Band xxiii. 1862, p. 446. X Proceed. Roy. Soc, vol. xiii. 1863-64, p. 355. 240 OF THE BLOOD; legal investigations. Mr. Sorby* has greatly improved the mechanicalarrangements by which the lines in question can be examined, and the ad-joining woodcut, Fig. 115, is after a drawing by his hand. The uppermostscale represents Mr. Sorbys standard interference spectrum, and is obtained. Redend. 1. Sorbys standard interferencespectrum. 2. Oxyhemoglobin or scarletcruorin. 3. Haemoglobin with carbonicoxide. 4. Reduced haemoglobin orpurple cruorin. 6. Old Blood-stain in water. 6. Hiematin in an acid solution. 7. Hcematin in an ammoniacalsolution. Deoxidized ammoniacalha?matin. 9. Fraunhofers lines. „ AB c T> E b F G by transmitting light through two Nicols prisms and an intervening plate otquartz or selenite, with its axis at 45° to the plane of polarization. Thenumber of the dark bands due to the interference of the luminous wavesmay be regulated by the thickness of the plate of quartz, and for the sake ofconvenience has been fixed at 12, the unequal dispersion making the distancebetween the bands in the blue about twice as great as in the red. Thedark bands are numbered 1, 2, 3, 4, &c, and the centre of the white spaces1|-, 2-|, 3|-, &c, which may be again subdivided, as into 1^, If, &c. Definitenarrow absorption bands
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