1230 
The values found for H, and Ne are too low. [2 in the last column 
(RG? 
of the table is the factor in a, = —~- —-— 
644 Pk 
b. Anorganic Compounds. 
Found | y 
| 
(CN) =2X(3,1+2,9)= 12,5>< 10-2 || 0,977 
CO. = 31429 = 5,8 5,35 0,992 
CO, =3,1-+5,4 = 85 8,5 0,988 
CSo = Bl 126 =15,7 | 15,4 0,975 
GeCly = 0+4%5,4 =21,6 21,5 0,975 
SnC, = O+4X54 =21,6 23,5 0,975 
NH; =. 0-296 = 96 9,2 0,977 
NO =5,8-12,7 =1185 8,75 | 0,988 
NO =29427 =56| 50 | 0,902 
"NO, =2,9+5,4 = gga 2104 ‚0977 
PH; = 0496 = 96 | 98 0.985 
“HO =64+42,7 = 91 | <10,7 | 0,97 
HS = 30-63 vonnis os | ops 
SO, =63+5,4 = 11,7 | 1 | 0,977 
H‚Se =3,2+71 =103 | 103 | 0,977 
HCI =3,245,4 = 86 | 84 | 0,985 
NO, and H,O seem to be still a little associated at Tj. It is further 
seen that H is everywhere = 3,2, except for H,, H,S and H,Se, where 
half the value is found, as for all organic compounds. 
For GeCl, and SnCl,, and also for NH, and PH, the attractive 
action of the elements Ge,Sn,N and P is entirely eliminated. In 
these compounds and we shall find back the same phenomenon 
for C in organic compounds — the central atom is quite inactive, 
because it is symmetrically surrounded on all sides by atoms H, 
Cl, ete. (or atom groups), which wholly absorb its attractive action. 
(shadowing-action). 
This is in perfect harmony with what Einstein found already in 
1911. Only with us the absorption of the lines of force takes place 
already im the molecule through the surrounding atoms, whereas 
