INDEX 



ACCELEKATED acidulation, 97, 

 99 

 Acetal, 40, 41 



composition of pure, 41 

 different views of the constitu- 

 tion of, 41 

 preparation of, 40 

 properties of, 41 

 Acetaldehyde or acetic aldehyde, 39, 



40 



Acetate, aluminium, 272-274 

 ammonium, 270 

 barium, 271, 272 

 bismuth, 297 

 calcium, 270, 271 

 chromic, 279 

 chromous, 279 

 cobalt, 279 

 dibasic cupric, 283 

 ferrous, 275 

 lead, neutral, 287-295 

 magnesium, 272 

 manganese, 274, 275 

 mercuric, 298 

 mercurous, 297, 298 

 neutral cupric, 280-283 

 ferric, 276-278 

 formation of, 43 

 nickel, 279 



of ammonia, neutral, 270 

 of lead, composition, properties, 



and uses of, 293-295 

 potassium acid, 268, 269 



neutral, 267, 268 

 sesquibasic cupric, 283 

 silver, 298 

 sodium, 269, 270 

 strontium, 272 

 tin, 297 



tribasic cupric, 283 

 uranium, 297 

 zinc, 279 



Acetates and their manufacture, 266- 

 298 



Acetates 



basic cupric, 283-287 



lead, 295-297 

 chromium, 278, 279 

 commercial, preparation of acetic 



acid from, 256-265 

 iron, 275-278 

 lead, 287-297 



obtained from wood-vinegar, pre- 

 paration of acetic acid from, 

 256-265 



of copper, 280-287 

 preparation of, 267 

 solubility of, 267 

 used for the preparation of acetic 



acid, 256 

 Acetic acid, 42-44 



and water, specific gravity of 



mixtures of, 42, 43 

 application of, 43 

 calculation for finding quan- 

 tity of, in vinegar, 

 209 



of the heat liberated by 

 the conversion of al- 

 cohol into, 46 

 of the theoretical yield 

 of, from alcohol, 44, 

 45 

 of the yield of, from 



malt, 158, 159 

 cause of the large amount 

 of, produced during the 

 destructive distillation of 

 wood, 219 

 destruction of, by the vinegar 



ferment, 106 

 determination of, 117 



by titration, with illus- 

 tration, 208, 209 

 of empyreumatic sub- 

 stances in, 254 

 of the content of, in 

 vinegar, 112 



