THE STRUCTURE OF THK NUCLEUS. 



113 



REMARKS ON THE RESULTS. 



For convenience in discussion the methods of computation to be employed 

 will he fully indicated in case of the first of the solvents, which happens to be 



M- 



5 to 15 ZD 



to ^ 30 40 50 



100 



u 



Fig. 5 



too m 



Fq/.r.^S? 



? Fw.S 



too 



Fig-^ l^sioh^ 



^ . 201 



,<*- 





Figs. 3, 3'.— Diameter of Cloud Particles (cm/io-') and Supersaturation for HCl. 



Fig. 4.— Number ok Particles Generated with Increased Shaking of HCl. 



Fig. 5.— Number of Particles Lost in the Lapse of Minutes for HCl. 



Fig. 6.— Diameter of Cloud Particles (cm/io') and Supersatur.\tion for Water. 



Fig. 6'.— Number of Particles Lost in the Lapse of Minutes for Water. 



Fig. 7.— Diameter of Cloud Particles (cm/io') and Supersaturation for N.-xCl. 



Fig. 8.— Number of Particles Lost in the Lapse of Minutes for NaCl. 



Fig. 8'.— Number of Particles Generated with Increased Shaking for NaCl. 



Fig. g.— Diameter of Cloud Particles (cm/io») and Supersaturation for CaCl. 



Fig q' —Number of Particles Lost in the Lapse of Minutes for CaCl. 



Fig. io.-Number of Particles Precipitated with each Exhaustion opn-REssuKE Decrement 5 / =2 cm.. 



for CaCl. 



Fig. ii.-Numeer of Particles Lost in the Lapse of Minutes for CaCl. Hulks 500 and iooo cub. cm., 



Respectively. 



hydrochloric acid. They will then be briefly referred to in case of the remaining 

 solvents. 



