Table of Prime Equivalent Numbers. 
Peroxide of ae 3 
Sulphite of soda . 
Chloride of manganese . 
Protochloride of iron 
Oxide of cadmium 
Bi-carbonate of magnesia . 
Copper 
Molybdous acid . 
Sulphuret of moly novia: 
Phosphate of manganese . 
8 Oxygen . 
Oxalate of lime . 
Hydrate of bie es 
Carbonate of zinc 
Borate of zinc? . 
Chloride of nickel 
- cobalt 
Sulphate of alumina 
Phosphate of nickel . 
- cobalt . 
Protoxide of tin . 
Tartaric acid (dry) . 
Acetate of ammonia . 
Succinate of ammonia . 
Peroxide of chlorine 
Sulphate of lime . 
Phosphuret of cadmium ? . 
Oxalate of soda . 
Carbonate of potassa 
Borate of potassa? . 
Barium : 
Acetate of magnesia 
Malic acid . 
Nitrate of ammonia . 
Phosphuret of tin 
‘Bismuth 
Tannin? 
Chioride of zine 
Phosphate of zine 
| 
. . . . . 
———— a 
65 
66 
67 
68 
70 
71 
Liquid nitric acid (2 water) 
Cryst? oxalic acid (4 water) 
8 Water 
Sulphate of soda (ay y) 
Nitrate of lithia . 
Protoxide of copper 
Oxalate of manganese . 
Molybdie acid 
Sulphuret of vain 4 
9 Oxygen . 
Nitrate of ee 
Arseniate of soda 
Oxalate of nickel 
—- cobalt 
Chloride of ee 
Sulphuret of tin . 
Citrate of Ene oms 
Peroxide of tin 
Sulphite of zinc . . 
Chloric acid . . 
Crystalliz! citric acid (2wr.) 
Cryst? tartaric acid (1 wr.) 
Chloride of potassium 
Phosphate of potassa 
Phosphuret of copper 
Bi-carbonate of soda (dry) 
Protosulphate ofmanganese 
iron (dry) 
Carbonate of strontia 
Borate of strontia? . 
Baryta . 
Acetate of lime 
Succinate of lime 
. 
Sulphate of nickel (dry) 
Sulphate of cobalt (dry) 
Hydrated bi-carbonate of 
ammonia 
Arseniate of ammonia . 
Oxide of bismuth 
Oxalate of zine 
e 
2 
| 
a 
ape 
| 
72 
75 
76 
78 
