100 



Prof. B. Moore and Dr. H. E. Eoaf. 



[Oct. 19, 



cent., which as before becomes converted into a diminution for 2 per cent, 

 and 8 per cent. (fig. 5). At 40° C. there is no actual increase at any concen- 



0-03 



> 



■•g OOI 



73 

 C 



o 

 o 



o 



a) 



60O-O2 



-C 



o 



003 





/ 



/ 



/ 



/ 



/ 



I 

 \ 

 \ 



\ 



\ 









1 

 t 



/ 



1 



71 — 



1 



\ 



\ 



\ 



V 



\ 



\ 









— / — 

 / 



/ 



/ 



/ 



/ 







\ 



\ 

 \ 



\ 

 \ 



\ 













H 



\ 



\ 



\ 



\ 



\ 



(Carve 2. 



Serum) 

















\>(Curv 



i 1. Salii 







— ^1 



05 IO 20 30 



Percentages of chloroform by weight in solution. 



Fig. 5. — Changes in Electrical Conductivity on addition of Chloroform to Saline (Curve 1) 



and Serum (Curve 2) at 18° C. 



2 



* O-OI 



3 



-o 



c 

 o 

 o 



o° 



H- 

 'O 



<D 



Q_ 



(0 O 



•03 



O4 



o-05 



0-06 



\\ 

 \ \ 



\ \ 













V \ 















— \ 



tv 











(Curve I 

 Saline) 



\ 

 \ 













H 



1 

 \ 



i 















N 



N 



(Curve 2 



t 



Serum) 



05 i-o 20 3-o 



Percentages of chloroform by weight in solution. 



Fig. 6. — Changes in Electrical Conductivity on addition of Chloroform to Saline (Curve 1) 



and Serum (Curve 2) at 40° C. 



tration, but the fall in conductivity is less for serum than saline at - 6 per 

 cent., and this ; fall is increased at the higher concentrations in chloroform 

 (fig. 6). 



