Page:Popular Science Monthly Volume 64.djvu/538

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534
THE POPULAR SCIENCE MONTHLY.

This was the case with the first works for the distillation of tar, as well as with the coal-tar color factories. Tar was not distilled and split up into its various component parts according to principles which were founded on rational and exact chemical research, the different hydrocarbons thus obtained were not nitrated, reduced, sulphonated, condensed, etc., in order to be converted into intermediary products and dyestuffs by processes discovered by the scientific investigator. These operations were executed by the rule of thumb, by men who had been engaged in kindred industries, in metallurgical works, in dyehouses, or in pharmacies or drug houses. These men worked in mere sheds, with vessels which for the most part were taken from the kitchen. There were no chemists; there were no laboratories. If it became necessary to analyze the inorganic crude materials which were used in the manufacture, it was done in a remote dark corner of the factory by so-called chemists, who were only educated in analytical schools. Instant dismissal was the penalty at that time imposed upon any chemist who dared to enter any of the rooms where the manufacturing was going on, to try to familiarize himself with the processes for the preparation of various products. The supervision was exercised by so-called practical men, who were ignorant even of the simplest principles of scientific chemistry, who derived their methods for the manufacture from mechanical experiments and who kept the formulae a deep secret, just as the alchemists concealed their receipts for the art of making gold.

Meanwhile Liebig had shown by his work in the laboratory in the quiet and far-away Giessen, by lectures and publications, what important treasures could be found in all branches of agriculture and industry by scientifically educated chemists well trained in laboratory methods, in analyses and syntheses of chemical bodies. He had shown that a knowledge of general chemistry and of its scientific principles and practical methods enabled men to advance all branches of the industries.

Liebig's staff of excellent pupils made their way to all quarters of the globe to disseminate his ideas and to assist agriculture and the industries. The light of scientific research kindled by Liebig penetrated all branches of industry. It pierced into the darkest factory rooms which were guarded with many secret locks, and more and more the truth of Liebig's teaching became recognized, that agriculture and the industries would accomplish undreamed of results, if scientifically educated chemists were employed in all branches and were permitted to exercise control of all methods.

In consequence thereof we now see that these large factories, devoted to the chemical industries which have drawn into their circle the manufacture of all the heavy chemicals, the production of the intermediary