So far the prize had been simply held alongside by the whale line, which at death had been "rove" through a hole cut in the solid gristle of the tail; but now it became necessary to secure the carcass to the ship in some more permanent fashion. Therefore, a massive chain like a small ship's cable was brought forward, and in a very ingenious way, by means of a tiny buoy and a hand lead, passed round the body, one end brought through a ring in the other, and hauled upon until it fitted tight round the "small" or part of the whale next the broad spread of the tail. The free end of the fluke chain was then passed in through a mooring pipe forward, firmly secured to a massive bitt at the heel of the bowsprit (the fluke-chain bitt), and all was ready.
The first thing to be done was to cut the whale's head off. This operation, involving the greatest amount of labor in the whole of the cutting in, was taken in hand by the first and second mates, who, armed with twelve-foot spades, took their station upon the stage, leaned over the handrail to steady themselves, and plunged their weapons vigorously down through the massive neck of the animal—if neck it could be said to have—following a well-defined crease in the blubber. At the same time the other officers passed a heavy chain sling around the long, narrow lower jaw, hooking one of the big cutting tackles into it, the "fall" of which was then taken to the windlass and hove tight, turning the whale on her back. A deep cut wasthen made on both sides of the rising jaw, the windlass was kept going, and gradually the whole of the throat was raised high enough for a hole to be cut through its mass, into which the strap of the second cutting tackle was inserted and secured by passing a huge toggle of oak through its eye. The second tackle was then hove taut, and the jaw, with a large piece of blubber attached, was cut off from the body with a boarding knife, a tool not unlike a cutlass blade set into a three-foot-long wooden handle.
Upon being severed the whole piece swung easily inboard and was lowered on deck. The fast tackle was now hove upon while the third mate on the stage cut down diagonally into the blubber on the body, which the purchase ripped off in a broad strip or "blanket" about five feet wide and a foot thick. Meanwhile the other two officers carved away vigorously at the head, varying their labors by cutting a hole right through the snout. This, when completed, received a heavy chain for the purpose of securing the head. When the blubber had been about half stripped off the body, a halt was called in order that the work of cutting off the head might be finished, for it was a task of incredible difficulty. It was accomplished at last, and the mass floated astern by a stout rope, after which the windlass pawls clattered merrily, the "blankets" rose in quick succession, and were cut off and lowered into the square of the main hatch or "blubber room." A short time sufficed to strip off the whole of the body blubber, and when at last the tail was reached, the backbone was cut through, the huge mass of flesh floating away to feed the innumerable scavengers of the sea. No sooner was the last of the blubber lowered into the hold than the hatches were put on and the head hauled up alongside. Both tackles were secured to it and all hands took to the windlass levers. This was a small cow whale of about thirty barrels—that is, yielding that amount of oil—so it was just possible to lift the entire head on board; but as it weighed as much as three full-grown elephants, it was indeed a heavy lift for even our united forces, trying our tackle to the utmost. The weather was very fine, and the ship rolled but little; even then, the strain upon the mast was terrific, and right glad was I when at last the immense cube of fat, flesh, and bone was eased inboard and gently lowered on deck.
As soon as it was secured the work of dividing it began. From the snout a triangular mass was cut, which was more than half pure spermaceti. This substance was contained in spongy cells held together by layers of dense white fiber, exceedingly tough and elastic, and called by the whalers "white horse." The whole mass, or "junk," as it is called, was hauled away to the ship's side and firmly lashed to the bulwarks for the time being, so that it might not "take charge" of the deck during the rest of the operations.
The upper part of the head was now slit open lengthwise, disclosing an oblong cistern or "case" full of liquid spermaceti, clear as water. This was baled out with buckets into a tank, concreting as it cooled into a waxlike substance, bland and tasteless. There being now nothing more remaining about the skull of any value, the lashings were loosed, and the first leeward roll sent the great mass plunging overboard with a mighty splash. It sank like a stone, eagerly followed by a few small sharks that were hovering near.
As may be imagined, much oil was running about the deck, for so saturated was every part of the creature with it that it really gushed like water during the cutting-up process. None of it was allowed to run to waste, though, for the scupper holes which drain the deck were all carefully plugged, and as soon as the "junk" had been dissected all the oil was carefully "squeegeed" up and poured into the try-pots.
Two men were now told off as "blubber-room men," whose duty it became to go below and, squeezing themselves in as best they could between the greasy mass of fat, cut it up into "horse-pieces" about eighteen inches long and six inches square. Doing this, they became perfectly saturated with oil, as if they had taken a bath in a tank of it; for as the vessel rolled it was impossible to maintain a footing, and every fall was upon blubber running with oil. A machine of wonderful construction had been erected on deck in a kind of shallow trough about six feet long by four feet wide and a foot deep. At some remote period of time it had no doubt been looked upon as a triumph of ingenuity, a patent mincing machine. Its action was somewhat like that of a chaff-cutter, except that the knife was not attached to the wheel, and only rose and fell, since it was not required to cut right through the "horse-pieces" with which it was fed. It will be readily understood that, in order to get the oil quickly out of the blubber, it needs to be sliced as thin as possible, but for convenience in handling the refuse (which is the only fuel used) it is not chopped up in small pieces, but every "horse-piece" is very deeply scored as it were, leaving a thin strip to hold the slices together. This, then, was the order of work: Two harpooners attended the try-pots, replenishing them with minced blubber from the hopper at the port side, and baling out the sufficiently boiled oil into the great cooling tank on the starboard. One officer superintended the mincing, another exercised a general supervision over all. So we toiled watch and watch, six hours on and six off, the work never ceasing for an instant night or day. Though the work was hard and dirty, and the discomfort of being so continually wet through with oil great, there was only one thing dangerous about the whole business. That was the job of filling and shifting the huge casks of oil. Some of these were of enormous size, containing three hundred and fifty gallons when full, and the workof moving them about the greasy deck of a rolling ship was attended with a terrible amount of risk. For only four men at most could get fair hold of a cask, and when she took it into her silly old hull to start rolling, just as we had got one halfway across the deck, with nothing to grip your feet, and the knowledge that one stumbling man would mean a sudden slide of the ton and a half weight, and a little heap of mangled corpses somewhere in the lee scuppers—well, one always wanted to be very thankful when the lashings were safely passed.
The whale being a small one, as before noted, the whole business was over within three days, and the decks scrubbed and rescrubbed until they had quite regained their normal whiteness. The oil was poured by means of a funnel and long canvas hose into the casks stowed in the ground tier at the bottom of the ship, and the gear, all carefully cleaned and neatly "stopped up," stowed snugly away below again.
To Dr. Manly Miles belongs the distinction of having been the first professor of practical agriculture in the United States, as he was appointed to that then newly instituted position in the Michigan Agricultural College in 1865.
Professor Miles was born in Homer, Cortland County, New York, July 20, 1826, the son of Manly Miles, a soldier of the Revolution; while his mother, Mary Cushman, was a lineal descendant of Miles Standish and Thomas Cushman, whose father, Joshua Cushman, joining the Mayflower colony at Plymouth, Massachusetts, in 1621, left him there with Governor Bradford when he returned to England.
When Manly, the son, was eleven years old, the family removed to Flint, Michigan, where he employed his time in farm work and the acquisition of knowledge, and later in teaching. He had a common-school education, and improved all the time he could spare from his regular occupations in reading and study. It is recorded of him in those days that he was always successful in whatever he undertook. In illustration of the skill and thoroughness with which he performed his tasks, his sister relates an incident of his sowing plaster for the first time, when his father expressed pleasure at his having distributed the lime so evenly and so well. It appears that he did not spare himself in doing the work, for so completely was he covered that he is said to have looked like a plaster cast, "with only his bright eyes shining through." A thrashing machine was broughton to the farm, and Manly and his brother went round thrashing for the neighbors. Industrious in study as well as in work, the boy never neglected his more prosaic duties to gratify his thirst for knowledge. He studied geometry while following the plow, drawing the problems on a shingle, which he tacked to the plow-beam. Whenever he was missed and inquiry was made about him, the answer invariably was, "Somewhere with a book." He was most interested in the natural sciences, particularly in chemistry in its applications to agriculture, and in comparative physiology and anatomy, and was a diligent student and collector of mollusks.
Choosing the profession of medicine, Mr. Miles was graduated M. D. from Rush Medical College, Chicago, in 1850, and practiced till 1859. In the meantime he became greatly interested in the subject of a geographical survey of the State, for which an act was passed and approved in 1858. In the organization of the survey, in 1859, he was appointed Assistant State Geologist in the department of zoölogy; and in the next year was appointed professor of zoölogy and animal physiology in the State Agricultural College at Lansing.
In his work as zoölogist to the State Geological Survey, in 1859, 1860, and 1861, he displayed rare qualities as a naturalist, so that Mr. Walter R. Barrows, in recording his death in the bulletin of the Michigan Ornithological Club, expresses regret that many of the years he afterward devoted to the development of experimental agriculture "were not spent in unraveling some of the important biological problems which the State afforded, which his skill and perseverance would surely have solved." He was a "born collector," Mr. Barrows adds, "as the phrase is, and his keen eyes, tireless industry, and mathematical precision led to the accumulation of thousands of valuable specimens and more valuable observations."
Mr. Bryant Walker, of Detroit, who knew Professor Miles well in later years, and had opportunity to review his zoölogical work, regards the part he took during this service in developing the knowledge of the fauna of the State as having been very prominent. "The catalogues he published in the report for 1860 have been the basis for all work since that time." He kept in correspondence with the most eminent American naturalists of the period, including Cope, Prime, Lea, W. G. Binney, Baird, and Agassiz, and supplied them with large quantities of valuable material. From the many letters written by these naturalists which are in the possession of his friends, we take, as illustrating the character of the service he rendered and of the trust they reposed in him, even previous to his going on the survey, one from Agassiz, of February 4, 1856:
"Dear Sir: As you have already furnished me with invaluable materials for the natural history of the fishes of your State, I am emboldened to ask another favor of you. I am preparing a map of the Geographical Distribution of the Turtles of North America, and would be greatly indebted to you for any information respecting the range of those found in your State, as far as you have noticed them, even if you should know them only by their common names, my object being simply to ascertain how far they extend over different parts of the country. If you could add specimens of them, to identify them with precision, it would be, of course, so much the better; but as I am almost ready for the press, I could not for this paper await the return of spring, but would thank you for what you could furnish me now. I am particularly interested in ascertaining how far north the different species inhabiting this continent extend." On the back of this letter was Dr. Miles's indorsement that a box had been sent.
A number of letters from Professor Baird, of 1860 and 1861, relate to the identification of specimens collected by Dr. Miles, and to the fishes of Michigan, and contain inquiries about gulls and eggs. Dr. Miles likewise supplied Cope with a considerable amount of material concerning Michigan reptiles and fishes.
While mollusks were the favorite object of Dr. Miles's investigations, he also made studies and valuable collections of birds, mammals, reptiles, and fishes; and he seems, Mr. Barrows says, "to have possessed, in a high degree, that strong characteristic of a true naturalist, a full appreciation of the value of good specimens. Many of his specimens are now preserved at the Agricultural College, and among his shells are many which are of more than ordinary value from having served as types of new species, or as specimens from type localities, or as part or all of the material which has helped to clear up mistakes and misconceptions about species and their distribution." Mr. Walker speaks of his having done a great work in conchology. His catalogue, which contained a list of one hundred and sixty-one species, was by far the most complete published up to that time. "He described two new species—Planorbis truncatusandUnio leprosus. The former is one of the few species which are, so far as known, peculiar to Michigan, and is a very beautiful and distinct form; while the latter, although now considered as synonymous with another species, has peculiarities which in the then slight knowledge of the variability of the species was a justification of his position. He was also the discoverer of two other forms which were named after him by one of our most eminent conchologists—viz.,Campeloma Milesii(Lea) andGuiobasis Milesii(Lea)." Mr. Walker believes that "in general, it can be truthfullystated that Dr. Miles did more to develop the general natural history of that State (Michigan) than any other man either before or since he completed his work as State Geologist."
As professor of zoölogy and animal physiology, Dr. Miles is described by one of his students, who afterward became a professor in the college and then its president, as having been thoroughly interested in the subjects he taught, and shown that interest in his work and in his treatment of his students. He labored as faithfully and industriously with the class of five to which President Clute belonged as if it "had numbered as many score." He supplemented the meager equipment of his department from his more extensive private apparatus and collections, which were freely used for class work; and, when there was need, he had the skill to prepare new pieces of apparatus. "He was on the alert for every chance for illustration which occasion offered: an animal slaughtered for the tables gave him an opportunity to lecture on its viscera; a walk over the drift-covered fields found many specimens of rock which he taught us to distinguish; the mud and the sand banks along the river showed how in the periods of the dim past were formed fossil footprints and ripples; the woods and swamps and lakes gave many useful living specimens, some of which became the material for the improvised dissecting room; the crayon in his hand produced on board or paper the chart of geologic ages, the table of classification, or the drawing of the part of an animal under discussion."
Prof. R. C. Kedzie came to the college a little later, in 1863, when Dr. Miles had been for two years a professor, and found him then the authority "for professors and students alike on beasts, birds, and reptiles, on the stones of the field, and insects of the air," thorough, scholarly, and enthusiastic, and therefore very popular with his classes.
The projection of agricultural colleges under the Agricultural College Land Grant Act of 1862 stimulated a demand for teachers of scientific agriculture, and it was found that they were rare. Of old school students of science there was no lack—able men, as President Clute well says, who were familiar with their little laboratories and with the old theories and methods, but who did not possess the new vision of evolution and the conservation of energy, men of the study rather than the field, and least of all men of the orchard and stock farm; and they knew nothing of the practical application of chemistry to fertilization and the raising of crops and the composition of feed stuffs, of physiology to stock-breeding, and of geology and physics to the study of the soils.
With a thorough knowledge of science and familiarity with practical agriculture Professor Miles had an inclination to enter this field,and this inclination was encouraged by President Abbott and some of the members of the Board of Agriculture. He had filled the professorship of zoölogy and animal physiology with complete success, and had he consulted his most cherished tastes alone he would have remained there, but he gradually suffered himself to be called to another field. The duties of "acting superintendent of the farm" were attached to his chair in 1864. In 1865 he became professor of animal physiology and practical agriculture and superintendent of the farm; in 1869 he ceased to teach physiology, and gave his whole time to the agricultural branch of his work; and in 1875 the work of the superintendent of the farm was consigned to other hands, and he confined himself to the professorship proper of practical agriculture.
The farm and its appurtenances, with fields cumbered with stumps and undrained, with inadequate and poorly constructed buildings, with inferior live stock, and everything primitive, were in poor condition for the teaching or the successful practice of agriculture. Professor Miles's first business was to set these things in order. Year by year something was done to remove evils or improve existing features in some of the departments of the life and management of the premises, till the concern in a certain measure approached the superintendent's ideal—as being a laboratory for teaching agriculture, conducting experiments, and training men, rather than a money-making establishment.
In this new field, Professor Kedzie says, Professor Miles was even more popular than before with students, and created an enthusiasm for operations and labors of the farm which had been regarded before as a disagreeable drudgery. The students "were never happier than when detailed for a day's work with Dr. Miles in laying out some difficult ditch or surveying some field. One reason why he was so popular was that he was not afraid of soiling his hands. His favorite uniform for field work was a pair of brown overalls. The late Judge Tenney came to a gang of students at work on a troublesome ditch and inquired where he could find Dr. Miles. 'That man in overalls down in the quicksands of the ditch is Dr. Miles'; the professor of practical agriculture was in touch with the soil."
Prof. Byron D. Halsted, of the New Jersey Agricultural College Experiment Station, who was an agricultural pupil of Dr. Miles in Lansing, characterizes him as having been a full man who knew his subjects deeply and fondly. "In those days I am safe in writing that he represented the forefront of advanced agriculture in America. He was in close touch with such men as Lawes and Gilbert, Rothamstead, England, the famous field-crop experimenters of the world, and as for his knowledge of breeds of live stock and their origin, Miles'sStock-Breeding is a classic work. Dr. Miles, in short, was a close student, a born investigator, hating an error, but using it as a stepping-stone toward truth. He did American farming a lasting service, and his deeds live after him."
While loved by his students, most of whom have been successful and many have gained eminence as agricultural professors or workers in experiment stations, and while receiving sympathy and support from President Abbott, Dr. Miles was not appreciated by the politicians, or by all of the Board of Agriculture, or even by the public at large. Unkind and captious criticisms were made of his work, and it was found fault with on economical grounds, as if its prime purpose had been to make money. He therefore resigned his position in 1875, and accepted the professorship of agriculture in the Illinois State University. Thence he removed to the Houghton Farm of Lawson Valentine, near Mountainville, N. Y., where he occupied himself with scientific experimental investigation. He was afterward professor of agriculture in the Massachusetts Agricultural College, at Amherst. In announcing this appointment to the students, Dr. Chadbourne, then president of the institution, and himself a most successful teacher, stated that he considered Dr. Miles as the ablest man in the United States for that position. In 1886, shortly after Dr. Chadbourne's death, Dr. Miles returned to his old home in Lansing, Michigan, where he spent the rest of his life in study, research, and the writing of books and articles for scientific publications.
During these later years of his life he took up again with what had been his favorite pursuit in earlier days, but with which he had not occupied himself for thirty years—the study of mollusks—with the enthusiasm of a young man, Mr. Walker says, who being interested in the same study, was in constant correspondence with him at this time; "and as far as his strength permitted labored with all the acumen and attention to details which were so characteristic of him. I was particularly struck with his familiarity with the present drift of scientific investigation and thought, and his thorough appreciation of modern methods of work. He was greatly interested in the work I was carrying on with reference to the geographical distribution of the mollusca, and, as would naturally be supposed from his own work in heredity in connection with our domestic animals, took great pleasure in discussing the relations of the species as they are now found and their possible lines of descent. He was a careful and accurate observer of Nature, and if he had not drifted into other lines of work would undoubtedly have made his mark as a great naturalist. As it is, his name will always have an honored place in the scientific history of Michigan."
When Professor Miles began to teach in the Michigan Agricultural College, the "new education" was new indeed, and the textbook method still held sway. But the improved methods were gradually taking the place of the old ones, and Professor Miles was one of the first to co-operate in them, and he did it with effect. He used text-books, "but his living word," President Clute says, "supplemented the book; and the animal from the farm under his knife and ours, the shells which he led us to find under the rotten logs and along the rivers and lakes, the insects he taught us to collect and classify, the minerals and fossils he had collected on the geological survey of Michigan, all were used to instruct and inspire his students, to cultivate in them the scientific spirit and method."
Among the more important books by Professor Miles are Stock-Breeding, which had a wide circulation and has been much used as a class-book; Experiments with Indian Corn, giving the results of some important work which he did at Houghton Farm; Silos and Ensilage, which helped much in diffusing knowledge of the silo in the times when it had to fight for recognition; and Land Drainage. Of his papers, he published in the Popular Science Monthly articles on Scientific Farming at Rothamstead; Ensilage and Fermentation; Lines of Progress in Agriculture; Progress in Agricultural Science; and How Plants and Animals Grow. To the American Association for the Advancement of Science he contributed papers on Energy as a Factor in Rural Economy; Heredity of Acquired Characters (also to the American Naturalist); Surface Tension of Water and Evaporation; Energy as a Factor in Nutrition; and Limits of Biological Experiments (also to the American Naturalist). Other articles in the American Naturalist were on Animal Mechanics and the Relative Efficiency of Animals as Machines. In the Proceedings of the American Educational Association is an address by him on Instruction in Manual Arts in Connection with Scientific Studies. The records of the U and I Club, of Lansing, of which he was a valued member for ten years, contain papers on a variety of scientific subjects which were read before it, and were highly appreciated. This list does not contain all of Professor Miles's contributions to the literature of science, for throughout his life he was a frequent contributor to the agricultural and scientific press, and a frequent speaker before associations and institutes, "where his lectures were able and practical."
No special record is made of the work of Professor Miles in the American Agriculturist, but the correspondence of Professor Thurber with him furnishes ample proof that he was one of the most trusted advisers in the editorial conduct of that journal. The familiar tone of Professor Thurber's letters, and the undoubting assurancewith which he asked for information and aid on various subjects, well demonstrate how well the editor knew whom he could rely upon in an emergency.
In all his work the great desire of Professor Miles was to find and present the truth. His merits were recognized by many scientific societies. He was made a corresponding member of the Buffalo Society of Natural Sciences in 1862; a corresponding member of the Entomological Society of Philadelphia in January, 1863; a correspondent of the Academy of Natural Sciences of Philadelphia in 1864; a member of the American Association for the Advancement of Science in 1880, and a Fellow of the same body in 1890; and held memberships or other relations with other societies; and he received the degree of D. V. S. from Columbia Veterinary College, New York, in March, 1880.
His students and friends speak in terms of high admiration of the genial qualities of Professor Miles as a companion. The resolutions of the U and I Club of Lansing describe him as an easy and graceful talker, a cheerful dispenser of his learning to others. "To spend an hour in his 'den,' and watch his delicate experiments with 'films,'" says President Clute, "and see the light in his eyes as he talked of them, was a delight." "He was particularly fond of boys," says another, "and never seemed happier than when in the company of boys or young men who were trying to study and to inform themselves, and if he could in any way assist them he was only too glad to do so"; and he liked pets and children. Incidents are related showing that he had a wonderful accuracy in noting and recollecting the minutest details that came under his observation—a power that he was able to bring to bear instantly when its exercise was called for.
Dr. Miles kept up his habits of reading and study to the last days of his life; but all public work was made difficult to him in later years by an increasing deafness. He was tireless in investigation, patient, and always cheerful and looking for the bright side; and when one inquired of him concerning his health, his usual answer was that he was "all right," or, if he could not say that, that he would be "all right to-morrow."
No sketch of Dr. Miles is complete without a word of tribute to his high personal character, his life pure and noble in every relationship, his unswerving devotion to truth, and the unfaltering loyalty to his friends, which make his memory a benediction and an inspiration to all who knew him well.
He was married in 1851 to Miss Mary E. Dodge, who remained his devoted companion until his death, which occurred February 15, 1898.
We do not know from whom the philosopher Locke quotes the saying, "Non vitæ sed scholæ discimus," but he translates it well, "We learn not to live, but to dispute." The adage has reference to the old systems of education which had for their aim neither the discovery of truth nor the perfecting of the human faculties in any broad sense, but the fitting of the individual to take his place in a world of conventional ideas and discuss conventional topics upon conventional lines. In other words, the preparation was for school, not for life, the whole subsequent career of the individual being regarded simply as a prolongation of the intellectual influences and discipline of the school. That system, which was ecclesiastical in its origin, has now, save for strictly ecclesiastical purposes, passed away. We consider life as the end of school and not school as the end of life.
It may be questioned, however, whether we have as yet thoroughly adapted our educational methods to this change of standpoint. Do we as yet take a sufficiently broad view of life? If we conceive life narrowly as essentially a business struggle, and adapt our procedure to that conception, the results will show very little relation to the larger and truer conception according to which life means development of faculty, activity of function, and a harmonious adjustment of relations between man and man. If, again, we make too much of knowledge that has only a conventional value, having little or no bearing on the understanding of things or the accomplishment of useful work, we are so far falling into the old error of "learning for school." The address by Sir Archibald Geikie, which we published last month, gives a useful caution against undervaluing "the older learning." The older learning can certainly be made an effective instrument for the cultivation of taste, of sympathy, and of intellectual accuracy along certain lines. It tends further, we believe, to promote a certain intellectual self-respect, which is a valuable quality. In the study of language and literature the human mind surveys, as it were, its own peculiar possessions, and thus acquires a sense of proprietorship which a study of the external world can hardly give. Still, it is well to cultivate a consciousness of the essentially limited and arbitrary nature of such knowledge. It is important, we may admit, to have a good text of such an author as Chaucer; but the minutiæ into which critics of his text enter can not be said to possess any broad human interest. Whether he wrote this word or that word, adopted this spelling or that, can not be a question on which much depends; and could one know the exact truth on a thousand such points, he would not really be much the wiser. Among Chaucer scholars he could speak with a good deal of confidence; but the knowledge of these details would not really help to round out any usefulsystemof knowledge, nor could any single fact possess the illuminating power which sometimes belongs to some single and, at first sight, unimportant fact in the realm of natural knowledge.
This is not said with any intention of disparaging the culture thatcomes of literary study. It is a culture that tends to brighten human intercourse and to sweeten a man's own thoughts. It is a culture eminently favorable to flexibility of mind and quick insight into human character. So far it is a culture "for life"; but too often it tends to become a culture "for school"—that is to say, when things are learned simply to meet conventional demands and conform to the fashion of the time.
A true and sufficient culture can never, as we conceive, be founded on literature and language alone. No mind can be truly liberalized without imbibing and assimilating the fundamental principles of science. There is darkness in the mind that believes that anything can come out of nothing and which has never obtained a glimpse of the exactness with which Nature solves her equations. In the region of mechanics alone there are a thousand beautiful and varied illustrations of the unfailing constancy of natural laws. It is a liberal education to trace the operation of one law under numberless disguises, and thus arrive at an ineradicable conviction that the same law must be reckoned with always and everywhere. The persistence of force, the laws of the composition and resolution of forces, the laws of falling bodies and projectiles, the conservation of energy, the laws of heat, to mention only a few heads of elementary scientific study, are capable, if properly unfolded and illustrated, of producing in any mind open to large thoughts a sense of harmony and a trust in the underlying reason of things, which are constitutive elements of the very highest culture. Only, care must be taken to approach these studies in a right spirit. There is a way of regarding the laws of Nature which tends to vulgarize rather than refine the mind. If we approach Nature merely as something to be exploited, we get no culture from the study of it; but if we approach it as the great men of old did, and feel that in learning its laws we are grasping the thoughts which went to the building of the universe, and, by so doing, are affirming our own high calling as intelligent beings, then every moment given to the study of Nature means intellectual, moral, and spiritual gain. When we look into literature there is much to charm, much to delight and satisfy; and doubtless, in relation to what any one man can accomplish, the field is infinite; but still we know we are looking into the limited. On the other hand, when we are face to face with Nature, we know we are looking into the infinite, and that, however many veils we may take away, there is still "veil after veil behind."
It is needless to say that there are thousands of minds in the world possessed of good native power, but laboring under serious disability for the want of that culture which science alone can bestow. Some of these are sick with morbid longings for unattainable knowledge, and openly or secretly rebellious at the limitations of a Nature whose powers they have never even begun to explore. To such persons anything like an adequate insight into the harmony amid diversity of Nature's laws would come with all the force of a revelation, and would, we may well believe, clear their minds of the feverish fancies which have made them so restless and dissatisfied; but, alas! it is rarely that such enlightenment comes to those who have not in youth imbibed a portion of the scientific spirit. In this class are to be found the victims of spiritualism, of the Keeley motor, and even of that grotesque satire, the success ofwhich we remember almost with fear and trembling, the "sympsychograph." Still, to all such we would say:
"Come forth into the light of things;Let Nature be your teacher."
"Come forth into the light of things;Let Nature be your teacher."
The "Nature" which we require to teach us for the peace and tranquillity of our souls is the Nature of everyday phenomena, the Nature that forms the clouds and rounds the raindrops, that springs in the grass and pulses in the tides, that glances in the sunbeam and breathes in the flower, that works witchery in the crystal and breaks into glory in the sunset. The mind that knows what can be known of these things has feasted full of wonder and beauty, and makes no greedy demand for higher grace or mightier miracle.
Then again there are those who for want of a little elementary scientific knowledge, and particularly for want of an assured conviction that Nature gives nothing for nothing, are continually attempting the impossible in the way of projected inventions. They catch at a phrase and think it must represent a fact; they fall victims to a verbal mythology of their own manufacture. If there was much hope of their learning anything of value through disappointment, they might be left to the teaching of experience, costly as the lessons of that master are. But they do not learn: their hopes are blasted, their fortunes, if they had any, are wrecked, but their infatuations survive. Where is the inventor of a perpetual motion who ever ceased to have confidence in his peculiar contrivance? The thing may be as motionless as a tombstone, save when urged by external force into a momentary lumbering activity; but all the same, it only needs, its misguided author thinks, a little doctoring, a trifling change here or there, to make it tear round like mad. And so with other inventors of the impossible: they take counsel not with Nature, but with their own wholly incorrect notions of what the operations of Nature are. The least power of truly analyzing a natural phenomenon, and separating the factors that produce it, would show them the falsity of their ideas; but that power they do not possess.
We can not, then, plead too strongly for the teaching of science, not with a view to results in money, but with a view to the improvement of the mind and heart of the learner, or, in other words, as a source of culture. Literature introduces us to the world of human thought and action, to the kingdom of man; and science shows us how the thought and powers of man can be indefinitely enlarged by an ever increasing acquaintance with the laws of the universe. Literature alone leaves the mind without any firm grasp of the reality of things, and science alone tends to produce a hard, prosaic, and sometimes antisocial temper. Each helps to bring out the best possible results of the other; and it is only by their joint action that human faculties and human character can ever be brought to their perfection.
It is singular what a propensity some writers have to misunderstand and misrepresent the views of Mr. Herbert Spencer, even upon points in regard to which he has made every possible effort to avoid occasion for misapprehension. The term "survival of the fittest" is one which Mr. Spencer himself introduced as being, perhaps, a little less open to misunderstanding than the Darwinian expression "natural selection." The latter seemed to imply purposive action, and Mr. Spencer thought thatthis implication would be less prominent if the phrase were changed to "survival of the fittest." From the very first, however, he recognized that the difference between the two terms in this respect was, if we may so express it, purely quantitative; and he took care to make it clear that by "the fittest" he did not in the least intend to signify any form of ideal or subjective fitness, but simply a superior degree of adaptation, as a matter of actual fact, to environing conditions. The conditions at any given moment are as they are, and the "fitness" of any particular organism is such a correspondence with those conditions as permits and favors its perpetuation. The conditions do not create fitness; they merely eliminate unfitness; nor does Mr. Spencer conceive any agency as producingab extrathe fitness which enables an organism or a number of organisms to survive. He differs, however, from what is perhaps the dominant school of biology to-day, in holding that the higher forms of organic life are, as he expresses it, "directly equilibrated" with their surroundings through the inheritance of physical features resulting from effort and habit.
To whatever cause it may be attributed, few writers whose intellectual activity has extended over so long a term of years as Mr. Spencer's have been so consistent in their utterances at different stages as he. The "Synthetic Philosophy" is the realization of a scheme of thought no less wonderful in its coherence and solidity than in its compass, the author having planted himself from the first at a point of view which gave him a clear command of his entire field. To say that no other system of thought equally comprehensive and equally coherent exists in the world to-day would be to make a statement which few competent and dispassionate authorities would deny. Notwithstanding this, there are writers not a few, particularly of the class "who write with ease," who, as we said at the outset, have a propensity for misunderstanding Mr. Spencer, and who consequently accuse him of inconsistencies and self-contradictions for which nothing that he has ever said affords any warrant. One of these gentlemen is the Duke of Argyll, who has lately offered the world another superfluous book under the title of Organic Evolution Cross-examined. The duke particularly concerns himself with Mr. Spencer's teaching in regard to the "survival of the fittest," and Mr. Spencer, in the columns of Nature, replies to him in a brief but sufficient manner. It is safe to say that Mr. Spencer's philosophy will show Cyclopean remains generations after the name of his ducal critic shall have passed forever into the mists of oblivion; and the "survival of the fittest" will thus be illustrated in a sense in which Mr. Spencer himself never used the words.
The study of the methods through which the topographical features and rock forms of particular districts have been worked out, as presented in numerous popular monographs, is a fascinating one; and we can hardly doubt that many persons who would never otherwise have thought of ithave been made interested in geology by some of these masterly picturesque descriptions of regions with which they were superficially familiar. Other treatises on the origin of surface features, dealing with the subject more fundamentally, but likewise of limited scope, are not wanting. Yet, as Prof.James Geikiewell says, there is no English work to which readers not skilled in geology can turn for a general account of the whole subject. Professor Geikie has therefore prepared his elaborate book onEarth Sculpture[14]to supply this want, to furnish an introductory treatise for those persons who may be desirous of acquiring some broad knowledge of the results arrived at by geologists as to the development of land forms generally. A vast number of geological questions are involved in the exhaustive treatment of the subject. All the forces with which geologists become acquainted in the study of the earth, and their operation, come into consideration. The effects of these forces assume aspects that vary according to the nature of the material on which they operate, and they are again modified according to the peculiar combinations of forces at work. The subject is therefore not the easy one it may be supposed at first sight to be, and the reader who peruses Professor Geikie's work with the intention of mastering it will find he has some studying to do. Yet Professor Geikie is clear, and it is only because he has gone deeper than the others that he may be harder. The first point he insists upon is that in the fashioning of the earth's surface no hard-and-fast line separates past and present. The work has been going on for a long time, and is still in progress, under a law of evolution as true for the crust of the globe as for the plants and animals. In setting out upon our inquiry we must in the first place know something about rocks and the mode of their arrangement, of the structure or architecture of the earth's crust. This leads to the distinction between the igneous and the subaqueous, the volcanic, plutonic, and metamorphic, and the derivative rocks on which epigene agencies have performed their shaping work. These rocks have been modified in various ways, and the surface appearance of the earth has been affected by forces operating from the interior, and by external factors, the work of which is called denudation. The agents of denudation are described—air, water, heat, frost, chemical action, plants, and animals—often so closely associated in their operations that their individual shares in the final result can hardly be determined. The various influences of these factors as exerted upon different forms of geological structure and different sorts of rocks are then taken up and described as applied to land forms in regions of horizontal, or gently inclined, and of highly folded and disturbed strata, and in regions affected by normal faults or vertical displacements. Land forms due directly or indirectly to igneous action and the influence of rock character on the determination of land forms are subjects of special chapters. Glacial action is one of the most important factors in modifying the forms of northern lands, and is treated with considerable fullness. Æolian action—of the air and wind—has peculiar and important effects in arid regions, and underground water in limestone districts, and these receive attention. Then come basins—those due to crustal deformation, crater lakes, river lakes, glacial basins, and others, and coast lines. Finally, a classification is given of these land forms as plains or plateaus of accumulation and of erosion, original or tectonic and subsequent or relict hills and mountains, original or tectonic and subsequent or erosion valleys, basins, and coastlines, and the conclusions are reached that we do not know, except as a matter of probability, whether we have still visible any original wrinkles of the earth's crust; and that some of the estimates of the time it has taken to produce the changes of which we witness the results have been very much exaggerated.
The curious conclusions obtained by Dr.Le Bonin his psychological investigations,[15]delivered to us in startling language, are said to be the fruit of extensive travel and of the personal measurement of thousands of skulls. His memoir on cervical researches, published in 1879, upholds the theory that the volume of the skull varies with the intelligence. This theory has perhaps suffered a permanent adumbration. Facts seem to prove that the bony structure of the skull, or even its cranial capacity, gives no positive indication of intellect.
In the present volume the theme of discussion is the soul of races. Anthropological classification is set aside and mankind is divided into four groups according to mental characteristics: the primitive, inferior, average, and superior races—the standard of judgment being the degree of their aptitude for dominating reflex impulses. It is perhaps worthy of note that while the Frenchman belongs to a superior race, the Semitic peoples are placed in the class below, or the average sort. For the primitive varieties it is not necessary to observe a South Sea islander, the lower strata of Europeans furnishing numerous examples. When greater differentiation is reached, the word "race" is used in a historical sense. It requires, however, more complete fusion than some nations exhibit to earn this title; for, although there are Germans and Americans, "it is not clear as yet that there are Italians." The race having been once evolved, acquires wondrous potentialities with Dr. Le Bon. He compares it to the totality of cells constituting a living organism, asserts that its mental constitution is as unvarying as its anatomical structure, that it is a permanent being independent of time and founded alone by its dead. It is a short step to endow this entity with a soul consisting of common sentiments, interests, and beliefs—what in brief, robbed of hyperbole, we should call national character. He states that the notion of a country is not possible until a national soul is formed. This, in time, like germ-plasm, becomes so stable that assimilation with foreign elements is impossible. Like natural species, it has secondary characteristics that may be modified, but its fundamental character is like the fin of the fish or the beak of the bird. The acquisition of this soul marks the apogee of the greatness of a people. Psychological species, however, are not eternal, but may decay if the functioning of their organs is troubled profoundly.
The soul of the race is best expressed in its art, not in its history or institutions, and, as it can not bequeath its soul, so it can not impress its civilization or art upon an alien race. It was on account of this incompatibility of soul that Grecian art failed to be implanted in India. The unaltering constituent of the soul corresponds to character, while intellectual qualities are variable. By character is meant perseverance, energy, power of self-control, also morality. The latter is hereditary respect for the rules on which a society is based. This definition would make polygamy a moral notion for Mormons. The knowledge of character "can be acquired neither in laboratories nor in books, but only in the course oflong travel." Whence it is learned that different races can not have mutual comprehension. Luckily for the student who is unable to travel, the same phenomenon may be observed in the gulf that separates the civilized man and woman. Although highly educated, "they might converse with each other for centuries without understanding one another." These differences between races and individuals demonstrate the falsity of the notion of equality. Indeed, throughscience"man has learned that to be slaves is the natural condition of all human beings." Naturally he becomes dispirited, anarchy seizes upon the uneducated and sullen indifference the more cultivated. "Like a ship that has lost its compass, the modern man wanders haphazard through the spaces formerly peopled by the gods and rendered a desert by science." In France morality is gradually dying out, while the United States is threatened by a gigantic civil war. What to do is problematical, since we are informed "that people have never derived much advantage from too great a desire to reason and think," and what is most harmful to a people is to attain too high a degree of intelligence and culture, the groundwork of the soul beginning to decline when this level is reached. The remedy suggested to us is "the organization of a very severe military service and the permanent menace of disastrous wars." But if we fail to see the improving tendency of this advice, it is probably because we are like historians, "simple-minded," while Dr. Le Bon is much too complex for our understanding. According to his own theory, there is no hope that we may comprehend him, since the outpourings of a soul of the Latin race can not be transferred by a simple bridge of translation to the apprehension of an Anglo-Saxon mind, separated, as he would term it, by "the dead weight of thousands of generations."
In preparing the new edition of hisText-Book of Mineralogy[16]first published in 1877, Prof.E. S. Danahas found it necessary to rewrite the whole as well as to add much new matter and many new illustrations. The work being designed chiefly for use in class or private instruction, the choice of topics discussed, the order and fullness of treatment, and the method of presentation have been determined by that object. The different types of crystal forms are described under the thirty-two groups now accepted, classed according to their symmetry. In the chapters on physical and chemical mineralogy, the plan of the former edition is retained of presenting somewhat fully the elementary principles of the science on which the mineral characters depend, and the author has tried to give the student the means of becoming practically familiar with the modern means of investigation. Especial attention is given to the optical qualities of crystals as revealed by the microscope; and frequent references are introduced to important papers on the different subjects discussed. The descriptive part of the volume is essentially an abridgment of the sixth edition of Dana's System of Mineralogy, published in 1892, to which the student is referred for fuller and supplementary information. A full topical index is furnished in addition to the usual index of species.
The title,The Story of the Railroad,[17]carries with it the suggestion of an eventful history. The West, in the author's view, begins with the Missouri River. The story of its railroad is the story of the line, now very multiple, that leads to the Pacific Ocean. The beginning of white men's travels in these routes is traced by the editor to the Spanish adventurers of the sixteenth century,who made miserable journeys in search of gold or visionary objects, through regions now traversed by some of the more southern lines. Then came trappers; next costly and painfully undertaken Government expeditions into the then regions of the unknown, the stories of which were the boyhood delight of men now living. The period of practical traversing of the continent began with the raging of the California gold fever, when the journey of many weeks was tiresomely made with ox teams, in the face of actual perils of the desert, starvation, thirst, and the Indians. After California became important, stage and express lines were put on; but still, at the time Mr. Warman takes up the story, less than sixty years ago, the idea of building a railroad to the Pacific was regarded as too visionary to be entertained, and Asa Whitney sacrificed a fortune trying to induce somebody to take it up. The first dreams were for a short route to the Orient. Eventually the idea was developed that the American West might be worth going after, and then the idea of a railroad to it began to assume practical form. Young Engineer Dodge, afterward Major General, began surveys before the civil war; after it General Sherman gave the scheme a great impulse, and the Union Pacific Railroad was built—when and how are graphically and dramatically told in Mr. Warman's book. Next came the Atchison, Topeka, and Santa Fé, and other transcontinental lines, the histories of all of which are related in similar style, with stories of adventures, perils encountered, and lively incidents, including the war between two of the lines for the possession of the Arkansas Cañon; financial mishaps, and political scandal. Then came the settlement of the plains, road-making in Mexico, and the opening of Oklahoma, all of which were made possible by the railroads, and have in turn contributed to support them. The beginnings and growth of the express business are described, and the later lines that have penetrated the plains are mentioned.
Prof.William Benjamin Smith'streatise on theInfinitesimal Analysis[18]has been written, the author says, on what appeared, in the light of ten years' experience in teaching the calculus, to be lines of least resistance. The aim has been, within a prescribed expense of time and energy, to penetrate as far as possible into the subject, and in as many directions, so that the student shall attain as wide knowledge of the matter, as full comprehension of the methods, and as clear consciousness of the spirit and power of this analysis as the nature of the case would admit. The author has accordingly often followed what seemed to be natural suggestions and impulses toward near-lying extensions or generalizations, and has even allowed them to direct the course of the discussion. In accordance with the plan and purpose of the book as given, "Weierstressian rigor" has been excluded from many investigations, and the postponement has been compelled of some important discussions, which were considered too subtle for an early age of study. Real difficulties, however, have not been knowingly disguised, and pains have been taken on occasion to warn the reader that the treatment given is only provisional, and must await further precision or delimitation. Where the subject has been found too large for the compass of the intended work, or too abstruse or difficult for the contemplated students, the treatment has been compressed or curtailed. The book is, in fact, written for such as feel a genuine interest in the subject; and the illustrations and exercises have been chosen with frequent reference to practical or theoretic importance or to historic interest.
Mr.George Jacob Holyoakehas written with much enthusiasm theJubilee History of the Leeds Industrial Co-operative Society.[19]Many schemes have been started on lines similar to those of this one, but very few besides it have grown from the very beginning, and, having become to all appearance a permanent institution, can look back upon a career of fifty years with complete satisfaction. The society began in times of public distress. The ground was prepared for it by the "Redemption" Society, which was founded at Leeds in 1845, by admirers of Robert Owen, after the experiment at Queenswoodhad failed. It practiced a kind of co-operation and had some distinguished friends to wish it well. Among the speakers at its meetings was Dr. Frederic Hollick, still living, now a resident of New York city. The co-operative society was started as a means of getting cheaper flour for its members. On February 25, 1847, an appeal headed "Holbeck Anti-Corn Mill Association" was issued to the working classes of Leeds and vicinity by the "working people of Messrs. Benyon & Co.'s mill," Holbeck, inviting combination and subscriptions for establishing a mill to be the property of the subscribers and their successors, "in order to supply them with flour and flour only." Meetings were held, an organization was effected, and the mill was started. The history of the society and how it grew, how "flour only" was stricken from its scheme and other things were added and it branched out, how co-operative stores were established, how it gained the confidence of the public and the respect of rivals in business, its successes and its mistakes, its triumphs and failures, are told by Mr. Holyoake, year by year, in a detail in which everything is set down and nothing covered up. In 1897 the cooperative society had productive departments of flour, bakery, bespoke clothing, boot and shoe factory, brush factory, cabinet making, building, millinery, and dressmaking, employing 541 hands and turning over £26,949; 80 large stores for the sale of these and various other kinds of goods in Leeds and vicinity; drapery branches and boot and shoe stores; 43 butchering branches; and 37,000 subscribing purchasers. Its capital stood at £447,000; and its sales for the year amounted to £1,042,616.
D. Appleton and Company have added to their Home Reading SeriesThe Earth and Sky, a primer of Astronomy for Young Readers, by Prof.Edward S. Holden. It is intended to be the first of a series of three or more volumes, all treating of astronomy in one form or another, and suited for reading in the school. The treatment is based on the principle that "it is not so simple as it appears to fix in the child's mind the fundamental fact that it is Nature which is true, and the book or the engraving which is a true copy of it. 'It says' is the snare of children as well as of their more sophisticated elders. The vital point to be insisted on is a constant reference from words to things." The volume is written as a conversation with a young lad. He is first shown how he may know for himself that the earth is not flat, though it certainly appears to be so. The next step is to show him that he may know that the earth is in fact round, and that it is a globe of immense size. Its situation in space is next considered, and the child's mind is led to some formal conclusions respecting space itself. It is then directed to the sun, to the moon and its changes, to the stars and their motions, to the revolution of the earth, etc.
In 1887E. S. Holdenpublished through the Regents of the University of California a list of recorded earthquakes on the Pacific coast, it being the first systematic publication of the sort. The purpose of it was to bring to light all the general facts about the various shocks, and enable studies to be made of particular earthquake phenomena. It was necessary at the Lick Observatory to keep a register of the times of occurrence of all shocks on account of their possible effects on the instruments. With this was associated in 1888, when the observatory began its active work, the collection of reports of shocks felt elsewhere on the Pacific coast. Mr. Holden now reprints this pamphlet through the Smithsonian Institution inA Catalogue of Earthquakes felt on the Pacific Coast, 1769 to 1897, with many corrections and additions, including a complete account of the earthquake observations at Mount Hamilton from 1887 to 1897, and an abstract of the great amount of information that has been collected regarding other Pacific coast earthquakes during the same interval.
ThePsychologie als Erfahrungs-WissenschaftofHans Corneliusis not intended for a complete account and review of the facts of psychical life, but rather to present the fundamentals of a purely empirical theory, excluding all metaphysical views. Such an account should not start from any arbitrary abstractions or hypotheses, but simply from actually ascertained, directly perceived psychical experiences. On the other hand, an empirical definition should be required for all the terms that are used in a comprehensivedescription of the experience; and no term should be used without the psychical manifestation described by it being pointed out. After an introduction in which the method and place of psychology, subjective and objective, physiological and genetic, are referred to, the elementary facts of consciousness are discussed. The coherency of knowledge is treated of in the next chapter, and in the third, Psychical Analysis and the conception of unobserved consciousness; and the succeeding chapters are devoted to Sensation, Memory, and Fancy; The Objective World, Truth and Error, and Feeling and Will. (Published at Leipsic, Germany: B. G. Teubner.)
An extremely interesting book is given us in the publications of the Wisconsin Geological and Natural History Society of studies byGeorge W.andElizabeth Peckham, of theInstincts and Habits of the Solitary Wasps. These insects are familiar enough to us all, as we meet them or see their nests of one or a few cells every day, and then think no more of them. But Mr. and Mrs. Peckham, following them to their haunts and keeping company with them, have found them manifesting remarkable instincts and exercising curious customs, which they describe in the style of persons who are in love with their work. The opportunity for the studies was given in two gardens, one on the top of a hill and the other lower down, with an island in a lake close by and acres of woodland all about, offering a rich variety of nesting places. There are more than a thousand species of these solitary wasps in the United States, to only about fifty of the social ones, and they live without knowledge of their progenitors and without relations with others of their kind.
The eighth volume of the report of theIowa Geological Surveycomprises the accounts of surveys completed during 1897 in six counties, making up the whole number of twenty-six counties in which the areal work has been completed. This does not, however, represent the whole extent of the operations of the survey, for some work has been done in nearly every county in the State, and in many counties it will require but little additional work to make a complete report. In addition to the areal work, too, special studies of coal, clay, artesian waters, gypsum, lead, zinc, etc., have engaged attention. A growing public appreciation of the work of the survey as illustrated in the demand for the volumes of the reports and for special papers, is recognized by the State Geologist, Mr.Samuel Calvin; and an increasing use of the reports as works for reference and for general study in high schools and other educational institutions is observed. The survey is now collecting statistics of production of various minerals mined in the State.
One of the features most likely to attract attention in theAnnual Report of the State Geologistof New Jersey for 1897 is the paper of Mr. C. C. Vermeule on the Drainage of the Hackensack and Newark Tide Marshes. In it a scheme is unfolded for the reclamation and diking of the flats, under which an ample navigable waterway shall be developed, and the cities which now stop at their edges may be extended and built up to the very banks of the new harbor, made a highway for ocean sailing vessels. An interesting paper is published by Lewis Woolman on Artesian and Bored and other Wells, in which many important wells are described with reference to the geological strata they penetrate. Other papers relate to iron mining and brick and clay industries, mineral statistics, and statistics of clays, bricks, and terra cotta. The field reports describe progress in the surveys of the surface geology, the Newark system, and the upper Cretaceous formations.
On the basis of a reconnoissance made by him for Alexander Agassiz, Mr.Robert T. Hillhas published through the Bulletin of the Museum of Comparative Zoölogy at Harvard University, a paper onThe Geological History of the Isthmus of Panama and Portions of Costa Rica. He finds that there is considerable evidence that a land barrier in the tropical region separated the two oceans as far back as Jurassic time, and continued through the Cretaceous period. The geological structure of the Isthmus and Central American regions, so far as investigated, when considered aside from the paleontology, presents no evidence by which the former existence of a free communication of oceanic waters across the present tropical barrierscan be established. The paleontological evidence indicates the ephemeral existence of a passage at the close of the Eocene period. All lines of inquiry give evidence that no communication has existed between the two oceans since the close of the Oligocene.
TheTwenty-second Annual Report of the Department of Geology and Natural Resourcesof Indiana,W. S. Blatchley, State Geologist, embraces, in part, the results of the work of the several departments of the survey during 1897. These appear in the form of papers of economic importance on the petroleum, stone, and clay resources of the State, natural gases and illuminating oils, a description of the curious geological and topographical region of Lake and Porter Counties, and an extended paper on the Birds of Indiana, with specific descriptions. A large proportion of the energies of the department were employed during the year in gathering data for a detailed report on the coal area of the State, which is now in course of preparation.
TheReport of the United States Commissioner of Educationfor 1896-'97 records an increase in the enrollment of schools and colleges of 257,586, the whole number of pupils being 14,712,077 in public institutions and schools, and 1,513,016 in private. The increase is confined to the public institutions, the private ones having suffered from "hard times." Among the numerous papers published in the volume containing the report are those on Education in Great Britain and Ireland, France, Denmark, Norway, Central Europe, and Greece; Commercial Education in Europe; the Teaching of Civics in France, Switzerland, and England; Sunday Schools, including accounts of the several denominational systems; the Legal Rights of Children; and sketches of Horace Mann and Henry Barnard and their work in furthering education.
Mr.David T. Day'sreport on theMineral Resources of the United Statesfor 1896 appears as Part V of the Eighteenth Annual Report of the United States Geological Survey, in two volumes of fourteen hundred pages in all; the first of which is devoted to Metallic Products and Coal, and the second to Nonmetallic Products except Coal. The report covers the calendar year 1896, and shows only a slight increase in total values over 1895. Of some substances, however—gold, copper, aluminum, and petroleum being the most important ones—the value was the greatest ever attained. Of other substances, including lead, bituminous coal, building stones, mineral waters, salt, and pyrites, the product was increased in amount, but the value was less. A paper, by Mr. George F. Becker, on the Witwatersrand Banket, records observations made by him in the Transvaal gold fields.
A Geological Reconnoissance of the Coal Fields of the Indian Territory, published in the Contributions to Biology of the Hopkins Seaside Laboratory of Leland Stanford Junior University, byNoah Fields Drake, is based upon a six months' examination made by the author during the spring, summer, and fall of 1896, of the larger part of the coal measures and adjacent formations of Indian and Oklahoma Territories. The best maps that could then be had being exceedingly inaccurate, sketch maps were made of areas that were especially important. On account of features of particular geological interest, nearly all the area south and east of the Canadian River and the bordering areas of the Boone chert and limestones were sketched and studied rather closely.
TheAmerican Catholic Historical Societyat Philadelphia publishes in itsQuarterly Recordsmuch that, while it must be of deep interest to historical students holding the Roman Catholic faith, possesses, perhaps, a strong though more general interest to all students of American history; for the men of that faith have had no small part in the colonization and development of this country. The number for June, 1898, contains a portrait and a bibliographical sketch of the Rev. Peter Henry Lemke, O. S. B., of Pennsylvania, Kansas, and Elizabeth, N. J.; a poem on the Launch of the American Frigate United States, whose commander was a Catholic; articles on the Sir John James Fund, and Catholic Chronicles of Lancaster, Pa., and Extracts from the Diary of the Rev. Patrick Kenny.
A memoir onA Determination of the Ratio (χ) of the Specific Heats at Constant Pressure and at Constant Volume for Air, Oxygen, Carbon Dioxide, and Hydrogengivesthe result of a series of investigations by Drs.O. LummerandE. Pringshein, of Charlottenburg, Germany, made with the aid of a grant from the Hodgkins Fund of the Smithsonian Institution. Besides being of exceptional importance in thermodynamics, the specific heat ratio is of interest as affording a clew to the character of the molecule. In the present investigation coincident results on the gases examined appear to have been reached for the first time. (Published by the Smithsonian Institution.)
From the greater lightness of the air and the higher velocity of its currents, it is evident that the materials it may carry and deposit will be somewhat different in composition and structure from those which are laid down in water. They are as a rule finer, they exhibit a different bedding, and are more capriciously placed. Mr.Johan August Uddenhas made a careful study of the subject, the results of which he publishes under the title ofThe Mechanical Composition of Wind Deposits, as the first number of the Augustana Library Series, at the Lutheran Augustana Book Concern, Rock Island, Ill.
TheHistory Reader for Elementary Schools(The Macmillan Company, 60 cents), prepared byL. L. W. Wilsonand arranged with special reference to holidays, contains readings for each month of the school year, classified according to different periods and phases of American history generally, so chosen that some important topic of the group shall bear a relation to the month in which it is to be read. The groups concern the Indians, the Discovery of America, Thanksgiving, Other Settlements (than those of Virginia and the Pilgrims), Dr. Franklin, Lincoln and Washington, the Revolution, Arbor Day, and Brave Sea Captains, etc., closing with articles in reference to Flag Day. The insertion of an article on the War with Spain seems premature. Public sentiment is not yet at rest on the subject.