Produced by Charles Keller

A HISTORY OF SCIENCE

By Henry Smith Williams, M.D., LL.D.

Assisted By Edward H. Williams, M.D.

In Five Volumes

Volume IV.

MODERN DEVELOPMENT OF THE CHEMICAL AND BIOLOGICAL SCIENCES

BOOK IV. MODERN DEVELOPMENT OF THE CHEMICAL AND BIOLOGICAL SCIENCES

AS regards chronology, the epoch covered in the present volume is identical with that viewed in the preceding one. But now as regards subject matter we pass on to those diverse phases of the physical world which are the field of the chemist, and to those yet more intricate processes which have to do with living organisms. So radical are the changes here that we seem to be entering new worlds; and yet, here as before, there are intimations of the new discoveries away back in the Greek days. The solution of the problem of respiration will remind us that Anaxagoras half guessed the secret; and in those diversified studies which tell us of the Daltonian atom in its wonderful transmutations, we shall be reminded again of the Clazomenian philosopher and his successor Democritus.

Yet we should press the analogy much too far were we to intimate that the Greek of the elder day or any thinker of a more recent period had penetrated, even in the vaguest way, all of the mysteries that the nineteenth century has revealed in the fields of chemistry and biology. At the very most the insight of those great Greeks and of the wonderful seventeenth-century philosophers who so often seemed on the verge of our later discoveries did no more than vaguely anticipate their successors of this later century. To gain an accurate, really specific knowledge of the properties of elementary bodies was reserved for the chemists of a recent epoch. The vague Greek questionings as to organic evolution were world-wide from the precise inductions of a Darwin. If the mediaeval Arabian endeavored to dull the knife of the surgeon with the use of drugs, his results hardly merit to be termed even an anticipation of modern anaesthesia. And when we speak of preventive medicine--of bacteriology in all its phases--we have to do with a marvellous field of which no previous generation of men had even the slightest inkling.

All in all, then, those that lie before us are perhaps the most wonderful and the most fascinating of all the fields of science. As the chapters of the preceding book carried us out into a macrocosm of inconceivable magnitude, our present studies are to reveal a microcosm of equally inconceivable smallness. As the studies of the physicist attempted to reveal the very nature of matter and of energy, we have now to seek the solution of the yet more inscrutable problems of life and of mind.

I. THE PHLOGISTON THEORY IN CHEMISTRY

The development of the science of chemistry from the "science" of alchemy is a striking example of the complete revolution in the attitude of observers in the field of science. As has been pointed out in a preceding chapter, the alchemist, having a preconceived idea of how things should be, made all his experiments to prove his preconceived theory; while the chemist reverses this attitude of mind and bases his conceptions on the results of his laboratory experiments. In short, chemistry is what alchemy never could be, an inductive science. But this transition from one point of view to an exactly opposite one was necessarily a very slow process. Ideas that have held undisputed sway over the minds of succeeding generations for hundreds of years cannot be overthrown in a moment, unless the agent of such an overthrow be so obvious that it cannot be challenged. The rudimentary chemistry that overthrew alchemy had nothing so obvious and palpable.

Table of contents (by pages)

• 1: A History of Science — Volume 4 by Williams
• 2: Those numberless particles which
• 3: And this principle he named phlogiston
• 4: To which the theory of Stahl had given such an impetus
• 5: And the attitude of mind of the chemists towards gases
• 6: Cavendish knew of the suggestion
• 7: 500 grain measures of dephlogisticated air
• 8: Priestley and his family escaped violence by flight
• 9: I endeavored to extract air from mercurius calcinatus per se
• 10: Karl Wilhelm Scheele 1742 1786
• 11: Finding that it decolorized flowers
• 12: Scheele not only made the discoveries
• 13: Sweden had given the world Scheele and Bergman
• 14: Giving up its phlogiston in the process
• 15: It not only discarded phlogiston altogether
• 16: In a brochure entitled The Doctrine of Phlogiston Upheld
• 17: Imagine an atom of hydrogen and one of oxygen
• 18: In particular by Louis Joseph Proust
• 19: Avogadro proposed to distinguish
• 20: In the same year Eilhard Mitscherlich
• 21: And even allowing the presence of fixed alkali
• 22: Only the power of acting on paper tinged with turmeric
• 23: Are essentially composed of such binary combinations
• 24: Thus the theory of Berzelius seemed to be substantiated
• 25: The oxygen atom seizes on a fellow oxygen atom
• 26: Thus a consideration of the fact that hydrogen is monovalent
• 27: It is in such cases that isomerism is observed to occur
• 28: Manufactured articles primordial
• 29: Mendeleeff gave the discovery fullest expression
• 30: Gustav Robert Kirchhoff and Robert Wilhelm Bunsen
• 31: Hailing Lockyer as the Darwin of the inorganic world
• 32: And peculiar only to muscular substance
• 33: Haller studied the mechanism of respiration
• 34: In this museum were anatomical preparations
• 35: Of the lymphatics in reptiles and fishes
• 36: This was a case of popliteal aneurism
• 37: That Hunter had never heard of this work of Anel
• 38: As Rene Reaumur had attempted to demonstrate
• 39: The phials were introduced under the armpits
• 40: His initial experiments were made in 1777
• 41: Some have contended that they are perspiratory organs
• 42: And there changed into a milky fluid
• 43: After having passed through their gills
• 44: Fossil shells are usually found quite entire
• 45: So necessary to animals of prey
• 46: Bichat practised as he preached
• 47: Wollaston called the periscopic microscope
• 48: Professor Giovanni Battista Amici
• 49: As only one areola belongs to each cell
• 50: In the utriculi of the stigma of this plant
• 51: As Schleiden had shown to be the case with vegetables
• 52: All of whom Schwann himself had quoted
• 53: To this Dujardin gave the name of sarcode
• 54: Even earlier Remak had reached a similar conclusion
• 55: A miniature chemical laboratory
• 56: The isolation of these enzymes
• 57: And consequently consume much oxygen
• 58: According to the supply of oxygen
• 59: As regards the ductless glands
• 60: They have also been called seed leaves
• 61: The cotyledons are mostly double
• 62: While another colored part is raised with the corolla
• 63: Of a true leaf has become a stamen
• 64: Which was not confined to Goethe and Darwin
• 65: And transmits the improved tendency
• 66: We ought to find traces of this gradual modification
• 67: Slender muzzles with a flat forehead
• 68: And in particular that of Lamarck
• 69: Geoffroy was pre eminently an anatomist
• 70: The Edinburgh Review writer says
• 71: 'separate and original creations
• 72: Of seemingly accidental variations
• 73: He showed it to his friend Hooker
• 74: The joint paper of 1858 had made a momentary flare
• 75: Darwin himself bears witness that this was not altogether so
• 76: Notwithstanding Professor Weismann's objections
• 77: And Hermann Boerhaave 1668 1738
• 78: And lastly their several Remedies
• 79: Like that of the Animists and Vitalists
• 80: Or are brought on by medicines
• 81: Hahnemann himself preferring the weakest
• 82: At various times Jenner had mentioned the subject to Hunter
• 83: Frequently becoming phagedenic
• 84: But at the beginning of the century Corvisart
• 85: Rene Theophile Hyacinthe Laennec
• 86: In subsequent years the form of the stethoscope
• 87: Based on microscopical studies
• 88: Owen named the insect Trichina spiralis
• 89: Twenty quarts of nitrous oxide were thrown into the box
• 90: This friend was another dentist
• 91: Surgeons were loath to believe that ether
• 92: Particularly as to the nature of putrefaction
• 93: Without the slightest sign of putrefaction
• 94: Often as a single fungoid growth or in combination
• 95: The wort thus prepared remains uncontaminated indefinitely
• 96: Pasteur was ready to report on his studies of anthrax
• 97: The French surgeon Alphonse Guerin
• 98: There exist many mucedines Mucedinae
• 99: Each of our attenuated anthrax microbes is
• 100: Pasteur accepted the challenge
• 101: Made by Pasteur and numerous other workers
• 102: Equally specific antitoxines of tetanus
• 103: Pinel and his confreres struck a blow also
• 104: Desmoulins made at least one discovery of epochal importance
• 105: Had turned his attention to the cranial nerves
• 106: And which is attached to the medulla spinalis
• 107: From the voluntary and respiratory motions
• 108: Was no other than Theodor Schwann
• 109: This sympathetic system of ganglia and nerves
• 110: Fechner explained it by saying
• 111: Gave Weber the clew to his novel experiments
• 112: Wundt's Physiological Psychology
• 113: And the studies of Flourens were aimed
• 114: And through the efforts of Broca
• 115: In its primordial adumbrations
• 116: One tissue differentiated from another
• 117: Such cells he named trophic centres
• 118: It remained for the Spanish histologist Dr
• 119: Cajal gave the clew from the very first
• 120: Near the Rosetta mouth of the Nile
• 121: Making what he called a cartouche
• 122: And by Samuel Birch of the British Museum
• 123: If he turned also to the pages of Herodotus and Xenophon
• 124: With Assyrian or with Egyptian
• 125: The trilingual inscription now in question
• 126: Had dealt more gently with the Behistun inscriptions
• 127: In Miscellaneous Botanical Works
• 128: And Memoires sur les vers visiculaires