1233 
d. Other organic compounds. 
Found y 
CHF =0-4+3<1,6 +29 = 11 9,7? 0,988 
CH,Cl =0+3X1,6+5,4 = 10,2 er 0,977 
CHCl, =—04+1X1,6+3X5,4 = 17,8 | 17,6 0,975 
CCI, OEE en A = 21.6 20,0 0,975 
C>H;CI =0+5X1,6+5,4 = 13,4 14,9 0,977 
CHC =OHAX16 +2X54 = 17,2 18,5 0,975 
C3H;CI Z0HTX16 +54 = 16.6 17,0 0971 
(CoH). O —0-+ 10 1,6-+.2,7 = 18,7 18,8 0,977 
(CH3,C,H)O =0+8X1,642,7 = 15,5 16,0 0,977 
* CO(CHs)2 Sane 021 =154 | <168 0,977 
H.COOCH, _=044X1,6 +(3,1 + 2X2,1) =149 15,2 0,977 
CH,. COOCH; = 046 X 1,6 + 8,5 = 18,1 17,9 0,977 
CH; . COOC;H; = 0+ 8X 1.6+8,5 = 21,3 20,4 | ___0,977 
CH3 . COOC,H; = 0 +10 X1,6 +85 = 24,5 23,0 0,975 
C‚H;F = 17,3 + 2,9 — 20,2 20,2 0,975 
C‚HsCI =118 454 = 22,1 22,8 0,97 
CsH;Br = 17,3-+-6,9 = 24,2 24,2 0,97 
CsHsI = 118 48,8 = 26,1 26,1 0,97 
C‚H4S Z=AX155+4X16+63 =18,9 20,6 0,97 
C,H, being — 18,9 (see table c)), we have C,H, = 17,3. 
HCS CH 
In thiophene | >>S all the C-atoms have a double binding 
He = CH x 
as in Benzene; therefore here again C = 1,55. 
The abnormal substance acetone has evidently become about 
normal for 7%. 
Table e., see following page. 
Methylaleohol and acetic acid are still pretty much associated at 
the critical temperature, whereas ethyl- and propylaleohol are almost 
normal. 
In the alcohols is the group OH = 2,7 + 3,2 —5,9; hence 3,2 
