TABLE LL 
t P Method t p | Method 
En EE ER 
54.25 4.1 a (alcohol) 109.8 26.8 a (xylol) 
59.6 4.95 a (alcohol) es) (61) 26.8 b 
64.95 6.1 a (alcohol) 110.3 27.0 a (xylol) 
70.1 WP a (alcohol) 110.8 Zine b 
127 8.0 b 114.5 30.8 a (xylol) 
14.7 8.7 a (alcohol) 115.5 31.30 | a (xylol) 
18.3 9.7 a (alcohol) 115.7 31.6 a (xylol) 
18.3 9.6 b 119.2 30d a (xylol) 
=). ag 10.1 b 120.0 35.7 b 
81.7 10.8 a (toluene) 120.5 36.3 a (xylol) 
82.7 11.1 b 125.35 41.6 a (xylol) 
86.7 12.9 b 125.5 41.8 a (xylol) 
87.1 13.0 b 131.1 48.8 | a (xylol) 
88.5 13.6 a (toluene) 131.5 49.3 b 
92.3 15.3 b 134.9 54.4 a (xylol) 
93.7 16.1 a (toluene) 139.1 60.5 a (aniline) 
98.15 18.6 a (toluene) 142.6 66.6 a (aniline) 
100.7 20.3 | a (xylol) 142.9 | 66.4 | b 
100.9 20.3 a (xylol) (52 82.4 b 
101.45 20.5 b 152.4 84.5 b 
101.6 20.7 a (toluene) 156.2 93.6 | b 
104.5 | 22.6 a (toluene). 157.4 97.2 b 
105.6 23.3 a (xylol) Tj. 158.2 P,, 100 extrapolation 
105.9 23.1 a (xylol) 
therefore owing to the heating of the homogeneous liquid at constant 
volume. 
With every determination in Table I the method used for the 
observation is given; the pressures are given in atmospheres. In the 
first four determinations and in the sixth the pressure was not 
determined by means of a ScHaérrerR and BUDENBERG manometer, but 
with an air-manometer (air-isotherm of AMAGAT). 
125 
