On the Classification of Cartoon- Compounds . 
817 
These, upon splitting off ammonia, NH 3 , will yield the fol¬ 
lowing compounds: 
^Xll 
\H 
1 ^nh 2 
P^NH 
1 ^nh 3 
p^NH 
1 \nh 2 
P^NH 
Snh 3 
\ 1 / 
/H 
C-H 
C-H 
nnh 2 
I /H 
C-NH 2 
^nh 2 
! /NH, 
C —NHo 
C=N 
C=N 
C=N 
C=N 
C-H 
\H 
/H 
C—H 
\nh 3 
O— r 
/1 \ 
Q- 
/ 1 \ 
3 3 3 
WWM 
p^NH 
V\H 
P^NH 
y\H 
P^NH 
I ^nh 2 
P^NH 
| n NH 2 
o— 
/ I \ 
W 
A/H 
l ^nh 
(l/H 
l \nii 
(1^nh 3 
CeeN 
C=N 
i/H 
| 
C=N. 
The same process of substitution and removal of ammonia 
might be applied to propane, the butanes, etc., but these two 
examples will suffice to demonstrate the process. If we now 
generalize and classify we obtain the following typical formulas 
for series: 
P . R' — CH 8 .NH 8 
s. R' 3 =CH nh 2 
t. R 3 =C.NH 2 
Monamines. 
R' —CH(NH 2 ) 2 
R' 8 =C(NH s ) 8 
R'C(NH 2 ) 3 
Diamines. 
Triamines. 
R' — CH=NH 
R'=C=NH 
*R'-C 
^NH 
\NH 9 
Imines. 
Amidines. 
R_C=N 
^-Y-- 
Nitriles. 
This is analogous to the formation of ethylene oxide from ethylene glycol: 
ch 2 [oh| 
i 1 ■” ; 
CILO Hi 
The compounds resulting are of a cyclic character, which, for the sake of simplicity, are 
not to be included in the present consideration. 
*If R=H then C=N V —H also becomes possible. 
CHo. 
= I O+HoO. 
CH/ 
