326 HISTORICAL INTRODUCTION TO CHEMISTRY CHAP, x 



A TABLE OF THE CONDENSATION 

 OF THE AIR. 



12 



4 

 ii 



ioj 



10 



94 

 9 



8 

 7* 



7 



6 



si 



54 

 Si 



5l 



44 



4i 



4 



34 

 3i 

 3 



00 



02lf 



06 i 



I2A 



29U 



3 2 A 



7iA 

 781S 

 88ft 



D 



37 

 39 r% 



47TC 



58}! 

 6iA 

 64A 



37tt | ? 



45^ 

 48f| i 

 53H ! 



77H 



93A 



"7A 



43H 



5 o 

 58| ? 



66^ 



70 



73H 



77! 



87f 

 99? 



A TABLE OF THE RAREFACTION 

 OF THE AIR. 



i 

 Ii 



2 



3 



4 



6 



BCD E 



291 



9t 



1 



31 



2f 



n 

 It 



I4i 



9tl 



4lf 



4i 



in 

 5 X 



A. The number of equal spaces in 

 the shorter leg, that contained the same 

 parcel of Air diversely extended. 



B. The height of the Mercurial 

 Cylinder in the longer leg, that com- 

 pressed the Air into those dimensions. 



C. The height of a Mercurial Cylinder 

 that counterbalanced the pressure of the 

 Atmosphere. 



D. The Aggregate of the two last 

 columns B and C, exhibiting the pressure 

 sustained by the included Air. 



E. What that pressure should be 

 according to the Hypothesis, that sup- 

 poses the pressures and expansions to be 

 in reciprocal proportion. 



A. The number of equal spaces at the 

 top of the Tube, that contained the same 

 parcel of Air. 



B. The height of the Mercurial Cylin- 

 der, that together with the Spring of the 

 included Air counterbalanced the pres- 

 sure of the Atmosphere. 



C. The pressure of the Atmosphere. 



D. The complement of B to C, ex- 

 hibiting the pressure sustained by the 

 included Air. 



E. What that pressure should be acr 

 cording to the Hypothesis. 



