Part 11

In a state, therefore, which is ruled by public opinion one of the qualities which a liberal education should most distinctly aim to impart is firmness to resist popular pressure when exerted in a wrong direction. In like manner, under an aristocracy a truly liberal education would not be one that would tend to perpetuate in the rising generation the faults of the preceding one, or to shut out all criticism of the established _régime_; on the contrary, its tendency should be to temper whatever was extreme or one-sided in the views of the ruling class. The liberality of an education comes in just here, in opening out wider views than would probably be acquired in actual contact with private business or public affairs. When William Pitt, while Prime Minister of England, betook himself to the study of Adam Smith’s recently published Wealth of Nations, and began to consider how he could apply the enlightened and philosophical views contained therein to the fiscal policy of the British Empire, he was converting his old-fashioned liberal education into a liberal education of the best kind.

A liberal education, let it be thoroughly understood, is not one which delivers over an individual to the dominant influences of his place and time, whatever they may be, but one which enables him to react, when necessary, against such influences under the guidance of wider views and deeper principles. It is an _illiberal_ education, let it embrace what it may, which simply equips a man for exploiting for his own benefit the conditions and tendencies which he finds prevailing in the society around him; and too much of what passes for liberal education has, we fear, had no better result. In a country like ours, liable to be swept by gusts of popular excitement, not to say passion, the aim of all higher education should be to create a class of citizens trained for social influence, and yet able to stand on their guard against sensational politics, to distinguish between true and false patriotism, and to uphold the claims of justice and honor when threatened by popular infatuation and tumult. We read in Thucydides that Cleon, the typical demagogue of ancient Athens, did not hesitate to tell his fellow-citizens that republics were not adapted for holding distant territories in subjection. If Cleon was a demagogue, what are we to think of the highly educated men who in our country echo the popular cry for an imperial policy, and say that millions of people beyond sea who ask only for liberty should be compelled by force of arms to be our subjects? Let our colleges and universities see to it that they understand “a liberal education” in the right sense.

_EXTERNAL AND INTERNAL AGGRESSION._

Much surprise has been expressed at the unusual prevalence of violence of all kinds in the United States during the past year. It has seemed quite extraordinary that in a nation devoted, as the American nation is, to vast schemes of philanthropy at home and abroad, such atrocious crimes as the mutilation and burning of negroes and the explosion of dynamite under street cars should be committed. From the sympathetic and self-sacrificing spirit manifested in the enthusiastic response to the appeal to arms to free Cuba and Puerto Rico from Spanish cruelty and despotism, and the repression of the insurrection in the Philippine Islands for the purpose of introducing order and civilization, something quite different was expected. There should have been a deeper interest in the welfare of the negro and a greater effort to protect him in the enjoyment of his rights. There should have been created a tie between capital and labor that no differences about wages or hours of toil could have ruptured with murderous animosities. In a word, there should have been a manifestation of fraternal feeling among all classes and in all sections that would have advanced the United States a long step toward the goal of civilization. So general has been the anticipation of these fruits from the war with Spain that one of the most familiar arguments in favor of it has been the subjective regeneration that would follow the attempt at objective regeneration. That is to say, the American people were to find a cure for their own moral disorders in their cure of the moral disorders of their neighbors.

To a student of the social philosophy of Herbert Spencer it will be no surprise nor disappointment that this expectation, so worthy of a generous and self-sacrificing people, has not been and is not likely to be realized. No truth set forth in his works is more firmly established than his profound induction that external aggression always begets internal aggression--that assaults upon the rights of others abroad leads to assaults upon the rights of others at home. “As it is incredible,” he says, “that men should be courageous in the face of foes and cowardly in the face of friends, so it is incredible that other feelings fostered by perpetual conflicts abroad should not come into play at home. We have just seen,” he adds, alluding to the proofs of this truth that he has given, “that with the pursuit of vengeance outside the society there goes the pursuit of vengeance inside the society, and whatever other habits of thought and action constant war necessitates must show their effects on social life at large.” The facts in support of Mr. Spencer’s generalization are to be found in the history of every militant people. He mentions himself the Fijian’s sacrifice of their own people at their cannibal festivals, and the prevalence of assassination among the Turks from the earliest times down to the present. He mentions also the hideous acts of cruelty that are to be found in the records of Greek and Roman civilization. To these examples may be added the atrocities committed by Italians upon Italians during the last days of the mediæval republics, and those committed by Frenchmen upon Frenchmen during the French Revolution. “The victories of the Plantagenets in France,” said Goldwin Smith, pointing out not long ago the futility of war as a cure for national factiousness, “were followed by insurrections and civil wars at home, largely owing to the spirit of violence that the raids in France excited. The victories of Chatham were followed by disgraceful scenes of cabal and faction, as well as corruption, terminating in the prostration of patriotism and the domination of George III and North.”

It is impossible to hope that the United States can be an exception to the social law thus established. However pure the motive that may lie at the bottom of a war of aggression, it can not annul the law. The shedding of blood and the seizure of territory produce a callousness of feeling and a perverted view of the rights of others that are certain to turn the hands striking a foreign foe to the work of domestic strife. Already we have seen with what bitterness such men as Prof. Charles Eliot Norton and Mr. Edward Atkinson have been assailed. We have seen, too, how attempts have been made to discredit the principles of the Declaration of Independence, and to show that the Constitution must not be permitted to stand in the way of what has been politely called the fulfillment of the destiny of the United States. We have seen, finally, how proposals for the disfranchisement of American citizens have been listened to in all parts of the country with a toleration that must cause the old abolitionists to turn in their graves. But the spirit thus manifested has not, we may be sure, failed to contribute to the perpetration of the outrages that have shocked every right-minded observer of current events. It is not a difference of kind but only one of degree that separates the slaughter of Spaniards in Cuba and Tagals in Luzon from the slaughter of negroes in the South and the explosion of dynamite under street cars in the North. The inhuman instincts that impel to the one impel to the other.

Fragments of Science.

=Zola’s Anthropological Traits.=--Mr. Arthur MacDonald has published, originally in the Open Court, a minute anthropological study of the personality of Émile Zola. Passing all the physical points noted, we select a few only of the most peculiar mental traits mentioned by the author. Fear is spoken of as Zola’s principal emotion, connected in him with the instinct of self-preservation. He is not much afraid of the bicycle, but shrinks from a ride through a forest at night. He has no fear of being buried alive, yet sometimes when in a tunnel on a railroad train he has been beset with the idea of the two ends of the tunnel falling in and burying him. Some morbid ideas have developed in him, but they do not cause him pain when not satisfied. He lets them run into their “manias,” and is then contented. The idea of doubt is one. He is always in fear of not being able to do his daily task, or of being incapable of completing a book. He never rereads his novels, for fear of making bad discoveries. He has an arithmetical mania, and when in the street he counts the gas jets, the number of doors, and especially the number of hacks. In his home he counts the steps of the staircases, the different things on his bureau. He must touch the same pieces of furniture a certain number of times before he goes to sleep. Some numbers have a bad influence for him, and there are good numbers. In the night he opens his eyes seven times, to prove that he is not going to die. He is regarded by the author as a neuropath, or a man whose nervous system is painful but does not seem to affect the soundness of his mind. “In brief, the qualities of Zola are fineness and exactitude of perception, clearness of conception, power of attention, sureness in judgment, sense of order, power of co-ordination, extraordinary tenacity of effort, and, above all, a great practical utilitarian sense.”

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=The Simplon Tunnel.=--The following facts are taken from a brief account of this great engineering feat in the Engineering Magazine: There is at present no direct rail connection between western Switzerland and Italy, and to reach Milan it has been necessary to go around to Lucerne and so on through by the St. Gothard route. The distance by rail from Milan to Calais by the Mont Cenis is 665 miles, and by the St. Gothard 680 miles. The distance by way of the Simplon Tunnel will be only 585 miles. The Jura-Simplon Railway from Geneva around the lake and up the Rhone Valley ascends to Brieg at an altitude of about 2,300 feet, while on the Italian side the railway from Milan stops at Domodossola, at an altitude of 900 feet. Between the two, which are 41 miles apart and over an elevation of 6,590 feet, lies the famous Simplon Pass. Connection is now made by diligence, the trip occupying a whole day. The plan of the new railway includes the prolongation of the present line on the Italian side to Iselle, at an altitude of about 2,100 feet, where the Italian entrance to the tunnel was begun in August, 1898. On the Swiss side the entrance is at Brieg, and the tunnel will connect these two towns, being 12.26 miles long. This is nearly three miles longer than the St. Gothard, but the altitude is only 2,300 feet above the sea, instead of 3,800 feet, as at the St. Gothard. The tunnel is to be straight laterally, but higher in the middle than at either end, the grade being 1 in 143 on the Italian and 1 in 500 on the Swiss side. The principal difference between the Simplon Tunnel and those previously pierced through the Alps is that, instead of one single tunnel, two separate tunnels, fifty-five feet apart, are to be constructed, connected by lateral passageways every 650 feet. At first but one of these is to be completed to the full dimensions, the other being carried through at only about a quarter of the ultimate cross-section, and not enlarged and put into use until the traffic demands it. Both tunnels are now being bored by the use of the Brandt hydraulic rotary drills, water being supplied at a pressure of 70 to 100 atmospheres. The borings are through gneiss, limestone, and slate. Holes two inches and three quarters in diameter and four or five feet deep are bored and the rock dislodged by means of dynamite. A narrow-gauge railway is used to remove the _débris_. It is expected that the tunnel will be completed in five years and a half. At the close of 1898, 300 feet had been penetrated on the south side and 1,300 on the north. The estimated cost of the complete double-track tunnels is 69,000,000 francs. This does not include the construction of the permanent way. The Mont Cenis Tunnel cost 75,000,000 francs, and the St. Gothard 59,750,000 francs. The work is practically controlled by the Jura-Simplon Railway.

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=Grant Allen.=--The death of our contributor, Mr. Grant Allen, was mentioned in the last number of the Popular Science Monthly. Mr. Allen was born in February, 1848, the son of the Rev. J. A. Allen, of Wolfe Island, Canada. He attended schools in the United States, in France, and in Birmingham, England, and entered Merton College, Oxford, whence he took his degree of B. A. in 1870. He afterward spent a few years in Jamaica as principal of a college for the higher education of the negro, which had only a brief career. He returned to England and settled down in London for literary work, writing rather on social and scientific than political subjects, for various journals. While he loved and appreciated scientific truth, he rather regarded his subject from the æsthetic side, and this gave a peculiar charm to his articles. He published books on Physiological Æsthetics and The Color Sense, which did not prove profitable. Finding it hard to gain a livelihood from his scientific work, he turned to fiction, and soon found, as the London Times has it, “that his worst fiction was more profitable than his best science.” His love of science, however, “approached enthusiasm,” and he contributed frequent popular scientific articles to the magazines, so that “for years past hardly one of those publications has been reckoned complete” without contribution of this character from him. He removed from London to Dorking, and afterward went to southern France and Italy for his health. Then, having so far recovered that he could spend his winters in England, he made himself a home at Hindhead, Surrey. Here he died, October 25th, after several weeks’ suffering from a painful internal malady. Among his scientific works, his books on Physiological Æsthetics, The Color Sense, and the Evolution of the Idea of God deserve special mention.

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=Japanese Paper.=--The peculiar qualities of Japanese paper, most of them excellent ones, and the great variety of uses to which it is applied, are known everywhere. It is a wood or bark paper, and derives its properties from the substances of which it is made and the method of its manufacture. Several plants are cultivated for the manufacture, which, in the absence of English names, must be called by their Japanese or scientific ones, of which the principal are “mitsumata” (_Edgeworthia papyrifera_), the “sozo” (_Brossonia papyrifera_), and the “gampiju” (_Wiekstroannia canecensis_). Bamboo bark also furnishes a good paper, but is not much used. The _mitsumata_ ramifies into three branches, and is cultivated in plantations, being propagated from seeds and by cuttings. It is fit for use in the second year if the soil is good. Its cultivation and exportation have reached an enormous importance, largely because the Imperial Printing Office uses it for bank notes and official documents. The _sozo_ is propagated by seeds, and somewhat resembles the mulberry. The _gampiju_ is a small shrub which is cut in its third year. To make paper, the bark is steeped in a kettle with buckwheat ashes to extract the resin in it. When it is reduced to a pulp, a sieve-bottomed frame with silk or hempen threads is plunged within, very much as in Western paper-making. This, letting out the water, holds the pulp, which, felting, is to form the future sheet of paper. This is pressed, to squeeze all the water out, and is left to dry. The uses made of paper in Japan are innumerable, particularly in old Japan, which treasures up its past. The papers, though all made in a similar way, are called by different names, according to the uses to which they are applied and their origin. Window lights are made of paper, and partitions between rooms, when it is stretched on frames, which work as sliding doors. The celebrated lanterns, called _gifu_, are made of it at Tokio and Osaka. Under the name of _shibuganni_ it is applied to the covering of umbrellas which are sold in China and Korea. As _zedogawa shi_ bank notes are printed on it. Oiled it is _kappa_, impermeable and suitable for covering packages and for making waterproof garments. Handkerchiefs are made from it, cords by twisting. For light, solid articles it is mixed and compressed very much as our papier-maché. Covered with thick paste and pounded, it forms tapestries. Imitations of Cordova leather are made of it by spreading it and pressing it with hard brushes upon boards in which suitable designs have been cut. It is then covered with oil and varnish. Japan produced nearly five million dollars’ worth of paper in 1892. Unfortunately, European methods of manufacture have been introduced, and there is danger of the paper losing its distinctive qualities.

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=The Deeps of the Ocean.=--In his geographical address at the British Association, Sir John Murray showed that the deep oceanic soundings are scattered over the different ocean basins in varying proportions, that they are now most numerous in the North Atlantic and Southwest Pacific, and in these two regions the contour lines of depth may be drawn with greater confidence than in the other divisions of the great ocean basins. On the whole, it may be said that the general tendency of recent soundings is to extend the area with depths greater than one thousand fathoms, and to show that numerous volcanic cones rise from the general level of the floor of the ocean basins up to various levels beneath the sea surface. Considerably more than half of the sea floor lies at a depth exceeding two thousand fathoms, or more than two geographical miles. On the Challenger charts all areas where the depth exceeds three thousand fathoms have been called “deeps,” and distinctive names have been conferred upon them. Forty-two such depressions are now known--twenty-four in the Pacific Ocean, three in the Indian Ocean, fifteen in the Atlantic Ocean, and one in the Southern and Antarctic Oceans. The area occupied by these deeps is estimated at 7,152,000 geographical square miles, or about seven per cent of the total water surface of the globe. Within these deeps more than 250 soundings have been recorded, of which twenty-four exceed 2,000 fathoms, including three exceeding 5,000 fathoms. Depths exceeding 4,000 fathoms, or four geographical miles, have been recorded in eight of the deeps. Depths exceeding 5,000 fathoms have been hitherto recorded only within the Aldrich Deep of the South Pacific, to the east of the Kermadecs and Friendly Islands, where the greatest depth is 5,155 fathoms, or 530 feet more than five geographical miles. This is about 2,000 feet more below the level of the sea than the summit of Mount Everest, in the Himalayas, is above it.

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=Death of Sir William Dawson.=--By the death of Sir J. William Dawson, at Montreal, November 19th, America loses one of its most highly distinguished geologists. Sir William was born at Pictou, Nova Scotia, in October, 1820, and was deeply interested in the study of Nature from his early college days, when he made extensive collections of various kinds. When he was twenty-two years old a happy fortune brought him in contact with Sir Charles Lyell, then visiting America, and he was that eminent geologist’s traveling companion during his scientific tour of Nova Scotia. He studied chemistry at the University of Edinburgh. Returning to Nova Scotia in 1850, he engaged in teaching, and was associated with the first normal school in the province. He was afterward connected with the new University of New Brunswick, and from 1855 to 1893 was Principal of McGill College and University. Although his duties in the college were very exacting, Professor Dawson’s industry in scientific research was never relaxed, and he was the author of contributions of very great value to the geology and paleontology of Canada. Among these were the discoveries of the _Dendrepeton acadianum_--the first reptile found in the American coal formations--and the _Pupa vetusta_--the first-known Paleozoic land shell. His discovery and exposition of the _Eozoon canadense_ attracted great attention, and was much discussed, but his views of its importance do not seem to have been justified, for some doubts now exist among geologists whether it represents any organic structure. He was the first President of the Royal Society of Canada, which was organized in 1882; was one of the sectional presidents of the British Association at its Montreal meeting (1884), and was president of that body at its Birmingham meeting, 1886. Among his published works are the Description of the Devonian and Carboniferous Flora of Eastern North America, constituting two volumes of the Reports of the Geological Survey of Canada; Air-Breathers of the Coal Formation; Acadian Geology; The Story of the Earth and Man; Origin of Animal Life; Fossil Men; the Canadian Ice Age; the Meeting Place of Geology and History; the Geological History of Plants (in the International Scientific Series); Relics of Primeval Life (Lowell Lectures); The Chain of Life in Geological Times; Modern Science in Bible Lands; the Dawn of Life; Modern Ideas of Evolution; a book of travels in Egypt and Syria; and many contributions to scientific periodicals. He received numerous degrees and honors from learned bodies and institutions, among them the Lyell medal of the Geological Society of London, in 1882. A sketch of Principal Dawson, as he was then called, was published, with a portrait, in the Popular Science Monthly for December, 1875 (vol. viii, p. 132).

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