351 
T* able XXfll. Of the combinations of citric 
acid with the salifiable bases, in the order 
of affinity. 
Bases. 
Barytes 
Lime 
Magnesia 
Potash 
Soda 
Ammoniac 
Oxyd of zinc 
manganese 
iron 
lead 
cobalt 
copper 
arsenic 
mercury 
antimony 
silver 
gold 
platina 
Argill 
Table XXIV. 
suberic acid 
the order of affinity. 
X ames of the bases. 
Barytes 
Potass 
Soda 
Lime 
Ammonia 
Magnesia 
Alumina 
Neutral salts. 
Citrat of barytes 
lime 
magnesia 
potash 
soda 
ammoliiac 
zinc 
manganese 
iron 
lead 
cobalt 
copper 
arsenic 
mercury 
antimony 
silver 
gold 
platina 
argill. 
Of the combinations of Die 
with the salifiable bases, in 
Names of the neutral 
salts.. 
Suberat of barytes 
potass 
soda 
lime 
ammonia 
magnesia 
alumina. 
j Table XXV. Of the combinations of the- 
oxalic acid with the saliliable bases, in the 
order of affinity. 
Bases. 
Neutral salts. 
lame 
Oxalat of lime 
Barytes 
barytes 
Magnesia 
magnesia 
Potasii 
potash 
Soda 
soda 
Ammoniac 
ammoniac. 
Argill 
argill 
Oxyd of zinc 
zinc 
iron 
iron 
manganese 
manganese 
cobalt 
cobalt 
nickel 
nickel 
lead 
lead 
copper 
copper 
bismuth 
bismuth 
antimony 
antimony 
a senic 
arsenic 
mercury 
mercury 
silver 
silver. 
gold 
gold 
platina 
platina. 
Table XXVI. Of the combinations of ace-* 
tic acid with the saliliable bases, in the or- 
der of affinity. 
Bases. 
Neutral salts*. 
Barytes 
Acetat of barv tes 
Potash. 
potash 
Soda 
soda 
] dme 
lime 
Magnesia 
magnesia 
Ammoniac 
ammoniac 
Oxyd of zinc 
zinc 
manganese- 
manganese 
iron 
iron 
lead 
lead 
tin 
tin 
cobalt. 
cobalt 
copper 
co, per 
CHEMISTRY. 
Oxyd of nickel 
Acetat of nickel 
arsenic 
arsenic 
bismuth 
bismuth 
mercury 
mercury 
antimony 
antimony 
silver 
silver 
gold 
gold 
platina 
platina 
Argill 
argill. 
Table XXV TI. Of the combinations of sue- 
cinic acid with the 
order of affinity* 
saliliable bases, in the 
t Bases. 
Neutral salts; 
' Barytes 
Succinat of barytes 
Lime 
lime 
. Potash 
potash 
Soda 
soda 
' Ammoniac- 
ammoniac 
Magnesia 
magnesia 
Argill 
argill 
Oxyd ot zinc 
zinc 
iron 
iron 
manganese- 
manganese 
cobalt 
cobalt 
nickel 
nickel 
lead 
lead 
tin 
tin 
copper 
copper 
bismuth 
bismuth 
antimony 
antimony 
arsenic 
arsenic 
mercury 
mercury 
silver 
silver 
gold 
gold 
platina 
platina. 
Table XXVIII. Benzoic acid combines 
with 
forming 
Barytes 
Benzoat of barytes 
Lime 
lime 
Potass 
potass 
Soda 
soda 
Ammonia. 
ammonia 
Magnesia 
magnesia 
alumina 
Alumina 
Order of affinity unknown. 
Table XXIX. Camphoric acid combines 
with forming 
; o 
Lime Camphorat of lime 
Potass 
potass 
Soda 
soda 
Barytes 
barytes 
Ammonia 
ammonia 
Magnesia 
magnesia 
Alumina 
alumina. 
Table XXX, 
Lactic acid combines. 
with 
forming 
Potass- 
Lactat of potass 
Soda 
soda 
Ammonia. 
ammonia^ 
Barytes 
barytes 
lame 
lime 
Alumina 
alumina 
Magnesia 
magnesia. 
Table XXXI. Of the combinations of sac- 
cholactic acid with the saliliable bases, in. 
the order of affinity. 
Bases. 
Neutral salts. 
Lime 
Saccbolat of lime 
Barytes 
barytes 
Magnesia 
magnesia 
Potash 
potash 
Soda 
soda 
Ammoniac 
ammoniac 
Argill 
argill 
Oxyd of zinc 
zinc 
manganes# manganese 
iron 
iron 
Oxyd of lead 
Saccbolat of lead 
tin 
tin 
cobalt 
cobalt 
copper 
copper 
nickel 
nickel 
arsenic 
arsenic 
bismuth 
bismuth 
mercury 
mercury 
antimony 
antimony 
■silver 
silver. 
Table XXXI I. Of the combinations of the 
prussic acid with the saliliable bases, in the 
order of affinity. 
Bases. 
Neutral salts. 
Potash 
Prussiat of potash 
Soda 
sod a 
Ammoniac 
ammoniac 
Lime 
lime 
Barytes 
barytes 
Magnesia 
magnesia- 
Oxyd of zinc 
zinc 
iron 
iron 
manganese 
manganese* 
cobalt 
cobalt 
nickel 
nickel 
lead 
lead 
tin 
tin 
copper. 
copper 
bismuth 
bismuth- 
antimony 
antimony 
arsenic 
arsenic 
silver 
silver 
mercury 
mercury 
gold 
gold 
platina 
platina. 
Table XXXIII. Mellitie acid combines 
with 
forming 
Potass 
Mellat of potass 
v Soda 
soda 
Ammonia. 
ammonia 
Lime 
lime 
liary tes 
barytes 
Alumina 
alumina. 
The combinations of the remaining acids 
with the saliliable bases are for the most part 
unknown; when ascertained they will be de- 
nominated from their constituent acids as 
follows : 
From the Sebacic acid. Sebats- 
Laccic acid Laccals 
Gallic-acid Gallats. 
Glossary of Chemical Terms. 
Affinity, the same with elective attraction 
(see the article Attraction), .means that 
attraction which exists between the very 
minute particles of bodies. It is essen- 
tially different from the attraction ot gra- 
vitation, since It is not governed by the 
masses or specilic gravity of the particles. 
It has been termed elective attraction, be- 
cause something analogous to preference 
or choice may be observed in this kind, of 
action of bodies on each other, d ims, 
spirit of wine will dissolve resin, but water 
will not ; outlie contrary. gum will dissolve 
in water, while it is insoluble in spirit. 
Nay, some fluids will let fall the particles 
of certain bodies, in order to take up and 
combine with those of others. Thus, if a 
quantity of silver is added to aqua-fortix 
(nitric acid), the cohesion of the particles 
of silver will be destroyed, and they will, 
unite forcibly with those of the aqua-tortis. 
The fluid will remain perfectly clear, be- 
cause the particles even in this state of 
combination, are so extremely minute thy£ 
* 10 
