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James Cutbush Part 1

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James Cutbush.

by Edgar F. Smith.

PREFACE

There is nothing thrilling in the following pages. They contain the story of the life-work of a very modest man deeply interested in and enamoured with the science of chemistry, who sought also to inspire others and to familiarize the general public of his time with the intimate connection of chemistry with manufactures and things which enter so largely into every-day occupations. He was an active member of a small group of chemists who, in the early years of eighteen hundred, caused thousands of the laity to give thought to the possibilities of Chemistry, and in addition was a pioneer in pyrotechnics, on which account he is deservedly ent.i.tled to every recognition. More than a century has pa.s.sed since his most serious efforts were put forth. However, it will not be long until that early galaxy of chemical enthusiasts of which he was a member will be accorded a high place in the history of the development of the science in America.

JAMES CUTBUSH

AN AMERICAN CHEMIST

1788-1823

It is scarcely conceivable that anything pertaining to the development of chemical science in America would fail to interest its chemists.

The response to the needs of the Nation in the last few years has shown how marvelously they wrought and the wonderful things which they brought to light. Yet in the long ago--in the days of which we only know by hearsay, and through desultory reading, there lived chemists with enthusiasm, knowledge and initiative, whose aim it was to have their chosen science contribute to the welfare of humanity. In the labors of such men as James Woodhouse, Robert Hare, Adam Seybert, Henry Seybert, John Redman c.o.xe, Joseph Cloud, Gerard Troost, and many others, the scientific spirit predominated, although with it went the purpose, more or less sharply defined, of making their acquirements useful. Particularly noticeable was this in the instance of Woodhouse.

The general consensus of opinion among present-day chemists is that chemistry should be helpful to all. It may and should be scientific, but its principles ought to be scientifically applied in every useful manner.

The reader, desirous of learning the aims and ambitions of the fathers of the science in our country, will profit by turning to the files of the _Aurora_, an old daily paper of Philadelphia, for the year 1808, and beginning about the middle of July will there encounter a most interesting series of articles on the applications of chemistry under the general heading

APPLICATION OF CHEMISTRY TO ARTS AND MANUFACTURES

There are fifteen separate papers. In considering the period--1808,--the age of the young Republic, and that the times were far from quiet; that unrest and uncertainty prevailed as to the fate of the Republic, it does not surprise that thought should have been given to means of protection; hence gunpowder was the very first product to engage the author of the series of articles. The proving and a.n.a.lysis of the powder are discussed at length. The methods appear very primitive in the light of present-day knowledge, but one must not forget the period. One hundred years hence the masterpieces of present-day chemists will perhaps provoke smiles upon the countenances of those who perchance read them. In this pioneer contribution on gunpowder a.n.a.lysis the charcoal of the powder is often called "oxid of carbon." In referring to the separation of pota.s.sium and sodium it is recommended to precipitate out the first in the form of tartrate. Naturally, nitre itself comes in for serious thought and the explosibility of the mixture of charcoal, nitre and sulphur arrests the author's attention, for he emphasizes the fact--

"that, independent of the formation of gases or airs, the agency of caloric, or matter of heat, generated in the process of combustion, considerably facilitates the strength of the powder, in consequence of producing the expansion of these airs."

Recently, under the pressure of a national necessity, which will not soon be forgotten, the problem of getting nitre--nitrates and kindred bodies--had the earnest attention of chemists. So, in the period before and after 1808, methods of forming nitre had grave consideration. For instance, this question, now amusing, was propounded--

"How much nitre could be manufactured from the refuse animal and vegetable matter of the City of Philadelphia in case of emergency? What quant.i.ty could be prepared by elixating or was.h.i.+ng the rubbish of old buildings, the earth of stables, cellars, etc., and the soil of certain tracts of the United States?"

It is quite proper that mention should have also been made of the natural _nitre beds_, as well as of the artificial beds built up from slow experience. Reference is made that in France nitre was won from the lime and rubbish of old, ruinous buildings, and from the floors of stables and pigeon houses, while it is also recorded that during the American Revolution, the

"same means, by the hand of economy and industry, afforded quant.i.ties of this article in certain of the then Colonies, and"

that in the Southern portions it was obtained from the earthen floors of tobacco houses.

The presentation of the earliest methods of getting nitre is extremely interesting, extended and elaborate, giving the reader a full view of pioneer conditions and endeavor. The scheme of purification of nitre for gunpowder use is illuminating and attractive. Attention is directed to the saltpetre rock and caves of the western portion of our country.

The preparation of charcoal is discussed. The adaptability of charcoal from various sources receives careful thought in connection with its use in gunpowder; so, too, the sulphur used for this particular purpose, and there is recommended as a source of this ingredient, the common pyrites so abundant throughout the States. Among other topics, of vital interest in these days, discussed in the continuing articles, is the manufacture of spirit from potatoes. The method employed in Germany is presented in detail after which it is said--

"Potato spirit of excellent quality has been made in this city (Philadelphia). It is found, not only to be much cheaper than grain used entirely, but to afford better flavoured liquor and other qualities which give it a decided preference."

Fermentation, yeast and baking receive mention. Brewing and the different kinds of beer are fully examined. In those days adulteration was practiced, for wormwood and qua.s.sia were found as subst.i.tutes. The preparation of beer and ale for home consumption would very likely find little favor in the "dry-bone" spirit of the present, much less would the refining of wines and other spirituous liquors of high alcohol content meet with approbation. However, such prohibitory questions as are now discussed did not vitally concern our forefathers, so that it was most proper and praiseworthy to advise the public how, through the instrumentality of chemistry, many of the needed articles of life might be made in the highest degree of purity. In many homes there existed miniature brewing plants.

At the other extreme, among useful commodities, were the manufacture of fish glue, common glue, gelatine, alb.u.men, magnesia alba, etc.

The several articles thus published in one of the most respected and influential papers of that early day--1808--had for their purpose the education of the general public in the application of a science to their use, but there was also a desire to arouse a deep and steady interest in science in general, which seems quite plain from a quotation from that remarkable address of Dr. John Morgan--at one time Physician-in-Chief of the American Army. The pa.s.sage was--

"Oh! let it never be said in this City or in this Province, so happy in its climate and in its soil, where Commerce has long flourished and plenty smiled, that science, the amiable daughter of liberty and sister of opulence, droops her languid head, or follows behind with a slow, unequal pace."

Doubtless deeply moved himself by this impa.s.sioned appeal, the author of the _Aurora_ papers exclaimed--

"I p.r.o.nounce with confidence this shall never be the case.

Every useful kind of learning shall here fix a favorite seat and s.h.i.+ne forth in meredian splendour, to accomplish which may _every_ heart and _every_ hand be united."

And then, probably overpowered by an inner, compelling force and conscious of the possibilities of his science in the cause of man and the undeveloped resources of our country, quietly awaiting the oncoming alterations to be performed by applying chemistry, he continues with like spirit--

"If ever there was a time to bring the Arts and Manufactures to perfection in this Country, it is the present; for the season is approaching, when, of necessity, which is the mother of invention, our internal resources, and the application of them to our wants, will advance a brilliant and glorious epoch in the annals of our Country--second to none but the declaration of independence. Who is to establish the _chain_ of manufactures--to convert the crude productions of Nature into useful articles; but you enlightened citizens, men of _science_ and _improvement_, _artists_ and manufacturers. The laboratory of Nature will be thrown open to you, and to use the scriptural phrase, 'Ye shall know even as ye are known.'"

Throughout the whole series of these papers there is manifest that n.o.ble patriotic spirit which shows itself in the last paragraph. There exists also an intelligent and unselfish spirit, so that as one finishes his reading there comes to mind a query as to the author who wrote thus in 1808--who was this early advocate of applied chemistry--this enthusiast in chemistry? Each article bears at its conclusion the initials _J.C._, which in several of the earlier articles are erroneously given as I.C. They throw no light on our curiosity and probably no one would ever have known whom _J.C._ represented had not the man himself in later life confessed that as a lad of twenty years he penned these papers. They are exceedingly well composed. They show a wide, general knowledge and also great familiarity with the science of chemistry. Their young author was _James Cutbush_.

When Robert Hare was twenty years of age he gave to the world one of the finest discoveries made by a chemist. Cutbush presented known chemical facts for the use and improvement of natural conditions.

Might not the young men of these days, surrounded by every sort of help, make similar earnest and worthwhile contributions? They surely can do this if they are imbued with the spirit of the forefathers--the American spirit in chemistry.

Additional evidence of Cutbush's chemical activity at this early age may be seen in a contribution to the Philadelphia _Medical Museum_ (1808) upon mercury fulminate. This interesting body he declared to be mercury oxalate and cited as his authority Aikin's Chemical and Mineralogical Dictionary. He believed that its oxalic acid content was due to the action of nitric acid upon alcohol. Such being the case, he argued that he saw no reason why the salt could not be prepared in a way by which "no alcohol is employed." Accordingly, he mixed intimately two parts of salt of sorrel and one part of red precipitate. Upon this mixture he poured sixteen parts of water, and rubbed the solid ma.s.s intimately together. In time the red-colored ma.s.s a.s.sumed an ash color, when it was collected on a filter and dried. In his own words--

"On trying a part of this powder on an anvil with a hammer, it exploded very violently, the comparison of which to that prepared by Howard's process was nearly equal."

While Cutbush was in error, relative to the true composition of the fulminate, he at least gave to the scientific world a characteristic property of mercuric oxalate, which does explode with considerable violence, while at 180 C. it quickly breaks down with a mild explosive effect. Singularly enough, he seems not to have abandoned the view that the interaction of alcohol and nitric acid give rise to oxalic acid.

While doing experimental work, Cutbush was active in the dissemination of science facts through the medium of his pen. Thus it was in this year (1808) that he published the "Useful Cabinet."

The surroundings of Cutbush were congenial. Woodhouse was at the zenith of his career. John Redman c.o.xe figured largely in Philadelphia science circles. The delightful and widely trained Benjamin Smith Barton was a prime favorite with the younger men of science; Adam Seybert was laying the foundations of mineralogical chemistry and Gerard Troost was soon to appear and give additional zest and impetus to chemical research. To all these men Cutbush was known and favorably known, judging from his own allusions to them in his scattered writings. Of them all he seems to have entertained the strongest attachment to the celebrated Barton and the talented c.o.xe, although he wrote of Dr. Woodhouse as "an experimenter unequalled." It is strange, however, that his references to Robert Hare are few and meagre. It is not easy to understand why this should be the case. True, there existed local prejudices and cliques in the closing decades of the 18th Century and the opening decades of the 19th Century. They are to be deplored, but humanity is frail and perhaps it is wisest to pa.s.s them by, yet so many things could be better understood if all the facts were laid bare. Frequent favorable mention was made by Cutbush of John Redman c.o.xe, hence probably the appearance of several of his contributions in the pages of the Philadelphia _Medical Museum_, edited at this particular time by c.o.xe. For example, in 1809, Cutbush published an article on the formation of ether in this journal, and suggested that the product of the interaction of sulphuric acid and alcohol could be best purified by distilling it over manganese or lead dioxide and not over caustic potash as was customary. He also dwelt on the production of ethylene in this process, attributing its presence to the dehydrating action of sulphuric acid upon the alcohol.

Momentarily, he rejoiced over this observation, believing it was new, but promptly subsided when he discovered that Fourcroy and Vauquelin had long before made the same observations and given the same explanation. Two years later (1811), in the same journal, Cutbush reported results gathered from experiments to determine the value of the hop to brewers. He said much in regard to its essential oil in the preparation of malt liquor and repeated earlier personal observations upon the importance of chemistry in the brewing operations--

"An art in which, to the principles of chemistry, many improvements have been made. To our worthy and ingenious countryman, Mr. Hare, much praise is due for various improvements in this art, which, we may add, were in consequence of his correct principles in chemistry and natural philosophy."

Here is one of the few references to Robert Hare made by Cutbush. It was when Hare was devoting most of his time and mental energies to the development and improvement of his father's business. He applied his scientific knowledge to it, only in the end to have it fail through the conditions which came upon the country during the period of the War of 1812. One cannot easily forget the filial devotion of Robert Hare to his father in this particular business. Gladly would he have pursued pure science, but he knew his duty and a.s.sumed it, although unable to devote much time to science until 1818. But that story has been told. Another appreciation from Cutbush which appears years later reads as follows:

"The deflagrator of Professor Hare of Philadelphia is an apparatus well calculated for many interesting experiments on galvanism. To that gentleman we are indebted for the compound blowpipe, which produces a very intense heat by the combustion of hydrogen in contact with oxygen gas.

Notwithstanding Professor Clark of England has laid claim to the apparatus, and the use of hydrogen gas in this way, the merit of the discovery is due to our learned and ingenious countryman."

The next few years in the life of Cutbush were most interesting. He enjoyed mingling with his fellows, and it is recorded that in 1810 he became a member of Lodge No. 2, Free and Accepted Masons, comprising in its members.h.i.+p General Peter Muhlenberg and many other distinguished Philadelphians in various walks of life. Upon them he made an exceedingly favorable impression, because in June of 1811, Cutbush was made presiding officer of his Lodge and frequently thereafter he was invited to address his brethren upon some of the topics of the moment. It is quite certain that he also availed himself in his dignified position to inculcate a knowledge of science, and his favorite science chemistry in particular, for on the pages of the _Freemason's Magazine_ for 1811 may be seen "Subjects and Importance of Chemistry"--an article for laymen in which is plainly set forth how the science enters every walk of life. In many respects it recalls the introductory chapter of Parke's Chemical Catechism, for it advises how chemistry

"removes the veil from the fabric of Nature, and makes us acquainted with all the phenomena which happen around us."

The offerings of Cutbush were fitting and most timely. They aroused the interest of his audience and induced many to enter upon scientific pursuits. At one place he enlarged upon the wonderful medicinal properties of a chalybeate water near Colestown, N. J., giving its a.n.a.lysis and the healthful effect it seemed to produce on those who used it.

Again, in the December issue of the _Freemason's Magazine_ (1881), he presented a most interesting, readable and succinct historical sketch of our science which concludes as follows:

"Thus chemistry is become an entirely new science. It is no longer confined to the laboratory of the arts: it has extended its flights to the sublimest heights of philosophy, and pursues paths formerly regarded as impenetrable mysteries. Placed forever in the elevated rank it now holds, rich with all its new conquests, it is become the science most adapted to the sublime speculations of philosophy, the most useful in advancing all the operations of the arts, and the most rational for scientific amus.e.m.e.nt. Exact in its process, sure in its results, varied in its operations, without limits in its applications and its views, severe and geometrical in its reasoning, there is scarcely any human occupation which it does not enlighten, and upon the perfection of which it may not have great influence. It bestows great enjoyment to every cla.s.s of individuals: and who would not be ambitious of becoming acquainted with a science which enlightens almost every species of human knowledge?"

Imagine for a moment the effect of such an enthusiastic proclamation of the powers of chemistry on the readers of the Magazine! It would be and no doubt was contagious, with the consequence that our science was called upon to aid infant industries. Cutbush was far-visioned and dreamed of the development of our Country's national resources. He had the spirit of Woodhouse, Seybert and others, who, too, were actuated for our Country's welfare, for its development physically and spiritually, and how better could this be accomplished than through the medium of science, and in large measure by chemical science?

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James Cutbush Part 1 summary

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