on elective Attractions. 
157 
Sulfurous Acid. 
Barita 
Potass - 
Lime 
Strontia 
Soda 
Strontia 
Potass 
Barita (15) 
Barita 
Soda 
Strontia 
Zirconia 
Ammonia 
Ammonia 
Alumina 
Magnesia 
Lime 
Glycina 
Lime 
Magnesia 
Magnesia 
Glycina 
Glycina 
Ammonia 
Alumina 
Alumina 
Soda 
Zircon ia 
Zirconia 
Potass 
Boracic 
Carbon ic 
(Nitrous) 
Boracic Acid 
Zirconia 
Potass 
Alumina 
Soda 
Glycina 
Lime 
Ammonia 
Barita 
Magnesia 
Strontia 
Strontia 
Magnesia 
Soda 
Ammonia 
Potass 
Glycina 
Barita 
Alumina 
Lime 
Zirconia 
(Phosphorous ?) 
1 Carbonic 
(15) Fourcroy says, that the sulfite of barita decomposes the carbonate of ammonia. 
Table of the Sequences of the Acids with different Bases. 
Barita. Strontia. Lime. 
Sulfuric 
S 
c 
S 
S 
c 
S 
P 
s 
c 
P 
P 
P 
Nitric 
N 
s 
P 
N 
SS 
P 
S 
p 
p 
F 
F 
F 
Muriatic 
M 
p 
SS 
M 
F 
SS 
SS 
SS 
F 
B 
B 
SS 
Phosphoric 
SS 
SS 
N 
SS 
P 
F 
F 
F 
B 
SS 
C 
s 
Sulfurous 
P 
N 
M 
c 
B 
B 
B 
B 
SS 
S 
SS 
B 
Fluoric 
C 
M 
F 
B 
S 
C 
C 
N 
s 
c 
s 
N 
Boracic 
B 
F 
B 
F 
M 
N 
N 
M 
M 
N 
N 
M 
Carbonic 
F 
B 
C 
P 
N 
M 
M 
C 
N 
M 
M 
/"> 
Strontia 
LM 
PT 
MG 
L M 
PT 
M G 
AM 
G L 
PT 
MG 
AM 
GL 
SD 
A M 
SD 
A L 
SD 
AL 
CL 
ZR 
ZR 
A L 
Z R 
Potass 
Soda 
Magn,=Amm. 
Glycina 
Alumina 
s 
N 
M 
ZlRCONIA 
Each with every 
subsequent base 
in this order 
B 
C 
Mag- 
nesia. 
B 
C 
P 
F 
SS 
S 
N 
M 
V- 
AM 
The comparative use of this table may be understood from an example : if 
we suppose that the nitrate of barita decomposes the borate of ammonia, we 
must place the boracic acid above the nitric, between barita and ammonia in 
this table, and consequently barita below ammonia, between the fluoric and 
boracic in the former : hence the boracic and fluoric acids must also be trans- 
posed between barita and strontia, and between barita and potass; or if we 
place the fluoric still higher than the boracic in the first instance, we must 
place barita below ammonia between the nitric and fluoric acids, where indeed 
it is not impossible that it ought to stand. 
