Chapter 22

"I'll break my staff, Bury it certain fathoms in the earth, And deeper than did ever plummet sound, I'll drown my book;"

is set down by the commentators, as written between 1609 and 1611. At that time Shakespeare was forty-five or forty-seven years of age, and lived for five or seven years thereafter in utter intellectual idleness, in Stratford.

In 1609 Bacon published "The Wisdom of the Ancients," a prose work of great poetical beauty. His professional practice was large and his income princely. In 1617 he succeeded Ellesmere, the Lord Chancellor, with the title of lord-keeper. In January, 1618, he was created lord high chancellor, and the same year was raised to the peerage as Baron of Verulam; and in 1621 he was made Viscount St. Albans. The "Novum Organum," his great life-work, was printed in October, 1620. His extraordinary industry is revealed in the fact that it had been copied and revised twelve times before it took its present shape. The new philosophy meant the study of nature and the acquisition of the knowledge of things. In this search the "most common," "base, illiberal and filthy matters," are not to be overlooked. We find in the plays the same novel philosophy:

"Some kinds of baseness Are nobly undergone; and most poor matters Point to rich ends." (Tempest, iii. 1.)

"Bacon's leading thought was the good of humanity. He held that study, instead of employing itself in wearisome and sterile speculations, should be engaged in mastering the secrets of nature and life, and in applying them to human use. His method, in the attainment of this end, was rigid and pure observation, aided by experiment and fructified by induction.... He clearly invented a thermometer; he instituted ingenious experiments on the compressibility of bodies, and on the density and weight of air; he suggested chemical processes; he suggested the law of universal gravitation, afterward demonstrated by Newton; he foresaw the true explication of the tides, and the cause of colors." ["American Cyclopedia." Vol. II., p. 204.]

This great work, the "Novum Organum," as often happens, was received by the majority of readers of his time with laughter and ridicule. Coke wrote on the title-page of a presentation copy:

"It deserveth not to be read in schools, But to be freighted in the ship of fools."

The ill-fortune which had so shrouded Bacon's struggling youth, and which had given way to such a magnificent sun-burst of splendid prosperity, was again massing its clouds and determined to cover his old age with shame, gloom and sorrow. He had been Lord Chancellor but three years, when, on March 15, 1621, a committee of the House of Commons reported two cases of bribery or corruption against him. Twenty-two other cases were also soon after presented. The House of Lords proceeded to investigate these charges, and Bacon defended himself. It was shown that fourteen of the twenty-four cases were presents given long after the suits were terminated; three more were sums of money loaned in the ordinary course of business; another case was an arbitration where compensation was due him; in another case the gift was sent back; another present, a piece of furniture, had never been accepted; another case was a New Year's gift, and in other cases the money was openly paid to the officers of his court. "Thus," says Hepworth Dixon, "after the most rigid scrutiny into his official acts, and into the official acts of his servants, not a single fee or remembrance, traced to the chancellor, can, by any fair construction, be called a bribe. Not one appears to have been given on a promise; not one appears to have been given in secret; not one is alleged to have corrupted justice."

It must be remembered that the salaries of all the high officers of the government were at that time paid in gifts and fees. Thus the king gave the lord chancellor but L81 6_s._ 8_d._ a year, while the place was worth L10,000 to L15,000; worth in our money to-day $125,000. "The judges had enough to buy their gloves and robes, not more." The lord chancellor had to maintain a huge retinue: "his court, his household, and his followers, gentlemen of quality, sons of peers and prelates; magistrates, deputy lieutenants of counties, knights of the shire, have all to live on fees and presents." It is still true that in England the law will not help a barrister or a physician to recover a fee; their compensation is, in theory, at least, supposed to be a gratuity for those they serve.

But it may be urged that Bacon plead guilty to corruption and bribery. He did nothing of the kind. He acknowledged that he "partook of the abuses of the times," and that the existing customs should be reformed; but he solemnly declared to Buckingham, May 31, 1621: "I have been a trusty and honest and Christ-loving friend to your lordship and the justest chancellor that hath been in the five charges since my father's time." Again, he said: "I had no bribe or reward in my eye or thought when I pronounced any sentence or order.... I take myself to be as innocent as any babe born on St. Innocent's day in my heart." All attempts to subsequently reverse his decrees failed, although his enemies were in possession of power. But King James urged him to make no defence, "to trust his honor and his safety to the crown.... He pleads guilty to carelessness, not to crime." He desired to live to finish up his philosophical works. To resist the king's wishes was to leave himself at the mercy of his life-long enemy, Coke; he yielded. The king remitted his fine of L40,000 and released him from the Tower. Bacon goes back to his books and writes in cipher: "I was the justest judge that was in England these fifty years; but it was the justest censure that was in Parliament these two hundred years." He meant thereby, that while personally innocent of corruption, the sentence would end gift-giving to judges. His formal confession to Parliament is a justification of every act complained of, for he relieves it, while acknowledging it, of those details which imply bribery.

He devoted the last five years of his life to putting forth the greatest works ever published by man; including the first complete edition of the so-called Shakespeare plays. Fortunate is it for the world that he was driven from the task of settling petty squabbles about the trash of the time, listening to "weary lawyers with endless tongues;" adjudicating questions of pounds, shillings, and pence between litigants whose very names have disappeared; and was shipwrecked by the stress of the great storm that struck him, like _Prospero_, on an island of solicitude, with books that "he prized above his dukedom," to perform labors in which all mankind will be interested even to the consummation of civilization on earth.

His patience, his gentleness, his forbearance were saint-like; still in his right hand he carried "gentle peace to silence envious tongues." His appearance, we are told, struck all men who beheld him with a great sense of awe. Those who were most closely associated with him loved him most dearly. His purposes were Godlike. They were "the glory of the Creator and the relief of man's estate." Macaulay says of Bacon's experimental philosophy:

"It has lengthened life; it has mitigated pain; it has extinguished diseases; it has increased the fertility of the soil; it has given new securities to the mariner; it has furnished new arms to the warrior; it has spanned great rivers and estuaries with bridges of form unknown to our fathers; it has guided the thunderbolt innocuously from heaven to earth; it has lighted up the night with the splendor of the day; it has extended the range of the human vision; it has multiplied the power of human muscle; it has accelerated motion; it has annihilated distance; it has facilitated intercourse, correspondence, all friendly offices, all despatch of business; it has enabled men to descend to the depths of the sea; to soar into the air; to penetrate securely into the noxious recesses of the earth; to traverse the land with cars which whirl along without horses; and the ocean with ships which sail against the wind."

In other words, the brain of this tremendous, this incomprehensible, this complex man, lies at the base of all our literature and of all our modern progress and civilization. The world is hardly big enough for his fame, and the praises of mankind cannot fill the measure of his greatness.

[Signature of the author.]

GALILEO-GALILEI

(1564-1642)

The great Tuscan astronomer is best known as the first telescopic observer, the fortunate discoverer of the Medicean stars (so Jupiter's satellites were first named); and what discovery more fitted to immortalize its author than one which revealed new worlds and thus gave additional force to the lesson, that the universe, of which we form so small a part, was not created only for our use or pleasure? Those, however, who consider Galileo only as a fortunate observer, form a very inadequate estimate of one of the most meritorious and successful of those great men who have bestowed their time for the advantage of mankind in tracing out the hidden things of nature. Galileo-Galilei was born at Pisa, February 15, 1564. In childhood he displayed considerable mechanical ingenuity, with a decided taste for the accomplishments of music and painting. His father formed a just estimate of his talents, and at some inconvenience entered him, when nineteen years old, at the university of his native town, intending that he should pursue the medical profession. Galileo was then entirely ignorant of mathematics; and he was led to the study of geometry by a desire thoroughly to understand the principles of his favorite arts. This new pursuit proved so congenial to his taste, that from thenceforward his medical books were entirely neglected. The elder Galilei, a man of liberal acquirements and enlarged mind, did not require the devotion of his son's life to a distasteful pursuit. Fortunately the young man's talents attracted notice, and in 1589 he was appointed mathematical lecturer in the University of Pisa. There is reason to believe that, at an early period of his studentship, he embraced, upon inquiry and conviction, the doctrines of Copernicus, of which through life he was an ardent supporter.

Galileo and his colleagues did not long remain on good terms. The latter were content with the superstructure which _a priori_ reasoners had raised upon Aristotle, and were by no means desirous of the trouble of learning more. Galileo chose to investigate physical truths for himself; he engaged in experiments to determine the truth of some of Aristotle's positions, and when he found him in the wrong, he said so, and so taught his pupils. This made the "paper philosophers," as he calls them, very angry. He repeated his experiments in their presence, but they set aside the evidence of their senses and quoted Aristotle as much as before. The enmity arising from these disputes rendered his situation so unpleasant, that in 1592, at the invitation of the Venetian commonwealth, he gladly accepted the professorship of mathematics at Padua. The period of his appointment being only six years, he was re-elected in 1598, and again in 1606, each time with an increase of salary; a strong proof of the esteem in which he was held, even before those astronomical discoveries which have immortalized his name. His lectures at this period were so fully attended that he was sometimes obliged to adjourn them to the open air. In 1609 he received an invitation to return to his original situation at Pisa. This produced a letter, still extant, from which we quote a catalogue of the undertakings on which he was already employed. "The works which I have to finish are principally two books on the 'System or Structure of the Universe,' an immense work, full of philosophy, astronomy, and geometry; three books on 'Local Motion,' a science entirely new, no one, either ancient or modern, having discovered any of the very many admirable accidents which I demonstrate in natural and violent motions, so that I may, with very great reason, call it a new science, and invented by me from its very first principles; three books of mechanics, two on the demonstration of principles and one of problems; and although others have treated this same matter, yet all that has been hitherto written, neither in quantity nor otherwise, is the quarter of what I am writing on it. I have also different treatises on natural subjects--on Sound and Speech, on Light and Colors, on the Tides, on the Composition of Continuous Quantity, on the Motions of Animals, and others besides. I have also an idea of writing some books relating to the military art, giving not only a model of a soldier, but teaching with very exact rules everything which it is his duty to know, that depends upon mathematics, as the knowledge of castrametation, drawing up of battalions, fortification, assaults, planning, surveying, the knowledge of artillery, the use of instruments, etc." Out of this comprehensive list, the treatises on the universe, on motion and mechanics, on tides, on fortification, or other works upon the same subjects, have been made known to the world. Many, however, of Galileo's manuscripts, through fear of the Inquisition, were destroyed, or concealed and lost, after the author's death.

In the same year, 1609, Galileo heard the report that a spectacle-maker of Middleburg, in Holland, had made an instrument by which distant objects appeared nearer. He tasked his ingenuity to discover the construction, and soon succeeded in manufacturing a telescope. His telescope, however, seems to have been made on a different construction from that of the Dutch optician. It consisted of a convex and concave glass, distant from each other by the difference of their focal lengths, like a modern opera-glass; while there is reason to believe that the other was made up of two convex lenses, distant by the sum of their focal lengths, the common construction of the astronomical telescope. Galileo's attention naturally was first turned to the moon. He discovered that her surface, instead of being smooth and perfectly spherical, was rough with mountains and apparently varied like the earth, by land and water. He next applied to Jupiter, and was struck by the appearance of three small stars, almost in a straight line and close to him. At first he did not suspect the nature of these bodies; but careful observation soon convinced him that these three, together with a fourth, which was at first invisible, were in reality four moons revolving round their primary planet. These he named the Medicean stars. They have long ceased to be known by that name; but so highly prized was the distinction thus conferred upon the ducal house of Florence, that Galileo received an intimation that he would "do a thing just and proper in itself, and at the same time render himself and his family rich and powerful forever," if he "named the next star which he should discover after the name of the great star of France, as well as the most brilliant of all the earth," Henry IV. These discoveries were made known in 1610, in a work entitled "Nuncius Sidereus," the Newsman of the Stars; in which Galileo further announced that he had seen many stars invisible to the naked eye, and ascertained that the nebulae scattered through the heavens consist of assemblages of innumerable small stars. The ignorant and unprejudiced were struck with admiration; indeed, curiosity had been raised so high before the publication of this book, as materially to interfere with the convenience of those who possessed telescopes. Galileo was employed a month in exhibiting his own to the principal persons in Venice; and our unfortunate astronomer was surrounded by a crowd who kept him in durance for several hours, while they passed his glass from one to another. He left Venice the next morning, to pursue his inquiries in some less inquisitive place. But the great bulk of the philosophers of the day were far from joining in the general feeling. They raised an outcry against the impudent fictions of Galileo, and one, a professor of Padua, refused repeatedly to look through the telescope, lest he should be compelled to admit that which he had pre-determined to deny.

It was not long before Galileo had new and equally important matter to announce. He observed a remarkable appearance in Saturn, as if it were composed of three stars touching each other; his telescope was not sufficiently powerful to resolve them into Saturn and his ring. Within a month he ascertained that Venus exhibits phases like those of the moon--a discovery of great importance in confirming the Copernican system. The same phenomenon he afterward detected in Mars. We close the list with the discovery of the revolution of the sun round his axis, in the space of about a lunar month, derived from careful observation of the spots on his surface.

About this time (1610-1611) Galileo took up his abode in Tuscany, upon the invitation of the grand duke, who offered to him his original situation at Pisa, with a liberal salary, exemption from the necessity of residence, and complete leisure to pursue his studies. In 1612 he published a discourse on "Floating Bodies," in which he investigates the theory of buoyancy, and refutes, by a series of beautiful and conclusive experiments, the opinion that the floating or sinking of bodies depends on their shape.

Neither Copernicus nor his immediate followers suffered inconvenience or restraint on account of their astronomical doctrines; nor had Galileo, until this period of his life, incurred ecclesiastical censure for anything which he had said or written. But the Inquisition now took up the matter as heretical and contrary to the express words of Scripture; and in 1616, Copernicus's work, "De Revolutionibus," Kepler's "Epitome," and some of Galileo's own letters, were placed on the list of prohibited books; and he himself, being then in Rome, received formal notice not to teach that the earth revolves round the sun. He returned to Florence full of indignation; and considering his hasty temper, love of truth, and full belief of the condemned theory, it is rather wonderful that he kept silence so long, than that he incurred at last the censures of the hierarchy. He did, however, restrain himself from any open advocacy of the heretical doctrines, even in composing his great work, the "Dialogue on the Ptolemaic and Copernican Systems." This was completed in 1630, but not printed till 1632, under license from officers of the church, both at Rome and Florence. It is a dialogue between Simplicio, an Aristotelian, Salviati, who represents the author, and Sagredo, a half convert to Salviati's opinions. It professes "indeterminately to propose the philosophical arguments, as well on one side as on the other;" but the neutrality is but ill kept up, and was probably assumed, not with any hope that the court of Rome would be blinded as to the real tendency of the book, but merely that it would accept this nominal submission as a sufficient homage to its authority. If this were so, the author was disappointed; the Inquisition took cognizance of the matter, and summoned him to Rome to undergo a personal examination. Age and infirmity were in vain pleaded as excuses; still, through the urgent and indignant remonstrances of the Grand Duke of Tuscany, he was treated with a consideration rarely shown by that stern tribunal. He was allowed to remain at the Florentine ambassador's palace, with the exception of a short period, from his arrival in February, until the passing of sentence, June 21, 1633. He was then condemned, in the presence of the Inquisitors, to curse and abjure the "false doctrines," which his life had been spent in proving, to be confined in the prison of the Holy Office during pleasure, and to recite the seven penitential psalms once a week during three years. The sentence and the abjuration are given at full length in the "Life of Galileo," in the "Library of Useful Knowledge." "It is said," continues the biographer, "that Galileo, as he rose from his knees, stamped on the ground, and whispered to one of his friends, '_e pur si muove_,' it does move though."

Galileo's imprisonment was not long or rigorous, for after four days he was reconducted to the Florentine ambassador's palace; but he was still kept under strict surveillance. In July he was sent to Sienna, where he remained five months in strict seclusion. He obtained permission in December to return to his villa at Arcetri, near Florence: but there, as at Sienna, he was confined to his own premises, and strictly forbidden to receive his friends. It is painful to contemplate the variety of evils which overcast the evening of this great man's life. In addition to a distressing chronic complaint, contracted in youth, he was now suffering under a painful infirmity which by some is said to have been produced by torture, applied in the prisons of the Inquisition to extort a recantation. But the arguments brought forward to show that the Inquisitors did resort to this extremity do not amount to anything like direct proof. In April, 1634, Galileo's afflictions were increased by the death of a favorite, intelligent, and attached daughter. He consoled his solitude, and lightened the hours of sickness, by continuing the observations which he was now forbidden to publish to the world; and the last of his long train of discoveries was the phenomenon known by the name of the moon's libration. In the course of 1636-37 he lost successively the sight of both his eyes. He mentions this calamity in a tone of pious submission, mingled with a not unpleasing pride. "Alas, your dear friend and servant Galileo has become totally and irreparably blind; so that this heaven, this earth, this universe, which with wonderful observations I had enlarged a hundred thousand times beyond the belief of by-gone ages, henceforward for me is shrunk into the narrow space which I myself fill in it. So it pleases God: it shall therefore please me also." In 1638 he obtained leave to visit Florence, still under the same restrictions as to society; but at the end of a few months he was remanded to Arcetri, which he never again quitted. From that time, however, the strictness of his confinement was relaxed, and he was allowed to receive the friends who crowded round him, as well as the many distinguished foreigners who eagerly visited him. Among these we must not forget Milton, whose poems contain several allusions to the celestial wonders observed and published by the Tuscan astronomer. Though blind and nearly deaf, Galileo retained to the last his intellectual powers; and his friend and pupil, the celebrated Torricelli, was employed in arranging his thoughts on the nature of percussion, when he was attacked by his last illness. He died January 8, 1642, aged seventy-eight.

It was disputed whether, as a prisoner of the Inquisition, Galileo had a right to burial in consecrated ground. The point was conceded; but Pope Urban VIII. himself interfered to prevent the erection of a monument to him in the church of Santa Croce, in Florence, for which a large sum had been subscribed. A splendid monument now covers the spot in which his remains repose with those of his friend and pupil, the eminent mathematician Viviani.