Sometimes they said he was a droll person who went about Scotland cracking jokes. And I have heard them say that he "played too much to the gallery." But the men who said those things liked their sermons delivered by long-faced folk, and wanted their lectures peppered with piety. They had their suspicions of laughter. Blackie bubbled over with good spirits. Others might make the public sigh and weep; he knew that it is better to make them laugh; that if you make them "feel good" they will like you well enough to listen to what you have to say and think about it. As for "playing to the gallery" one has only to recall Blackie's life-long admonitions to Democracy in order to see the error of that assumption.
The best word-picture of John Stuart Blackie was unknown to the public at the time of which I write. It was unknown even to Blackie himself at that time. It was written by one of his pupils, Robert W. Barbour, a brilliant and scholarly man. His "Letters, Poems, and Pensées" appeared subsequently in a volume edited by Professor Drummond, a memorial volume circulated privately. It was with Professor Drummond's permission that I published, years ago, an extract from one of Barbour's letters. Barbour, when it was written, was in charge of a school somewhere in the Highlands. One day his old master, Blackie, came up from Edinburgh for a blow of the mountain air and a visit to Barbour, who thus described the occasion:
"Then follow minutes of Elysium, were life only the Academy, and the world made for students andProfessors! I hear Professor Blackie talk of foreign travel, of the pictures it gives to hang forever in one's after-study; and as the brave old snowy head falls back against the claret of the sofa, he brings me out, one by one, the pictures—Rome, Florence, Milan, Gottingen—latest hung therein.
"After dinner the Professor and I have an hour and a half's stroll to the school, while I drink in the delightful desultoriness of his talk, and try to stop just when he does—which is not always easy; for you cannot tell why this crystus should seize his fancy, or that 'potentilla' interrupt his thought. But it only breaks to flower forth again more beautiful, as he talks first of Italy, its grace we lack so in Scotland, its lack of sternness we could so well supply; its few great hearts alive and active, its multitudes asleep and slow; then of its new literature; then the political parties; then what poets should do now, not to be so sundered from their time as Browning (who walked these roads), nor so bound to the mere accident of rhyme. Let poets write short, sympathetic lives of men; let them write history, not stories.
"And so we come to the school where the Professor has half an hour of cross-questioning the best scholar, to the advantage of the whole school; and such happy definitions, and such funny 'pokes' with the mind and the walking-stick, and such instructive similes and amusing information. They are rather annoyed when I tell them how great a man my master is. Then they sing to him in good Scotch to his heart's desire....
"At last he rises, and asking them something in a Gaelic too good, or bad, or both (or rather book-born), to be understanded of them, he breaks into a beautiful Gaelic lament, while the whole little audience stands open-mouthed, eyed, and eared, and hardly recovers to whisper 'Good-bye, sir', ere he and I are out into the air again.
"I apologise for having given him such little work for so long, and he hums out something in German, which he breaks half sternly to say: 'There are four things a man must love—children, flowers, woman,' and, must I say it? 'wine.' He went on to tell me how hateful and horrible a nature Napoleon's always had seemed to him. Napoleon said: 'I love nothing, I love not woman, I love not dice, I love not wine, I love not politics.'
"Then the hill came, and with the hill our thoughts could not help climbing. Was I licensed? No, not ordained yet, of course. Would I preach the splendid possibilities in man, to sink to the beasts which perish, or to rise to heaven itself? He did not deny that the heart was deceitful and desperately wicked, but should we not call on men to realise for what they were made.... No man understands others, he said, who does not leave himself more behind, and go and sit by others, wherever they may be.
"He could not say what Greek one should read who had few books and less time. 'No, read only where the heart runs; read nothing except that about which you are passionate...' So I got no lists of authors or works. 'Read where you arethinking; don't read where you are not feeling.' This and much more on war, churches, architecture, youth and new opinions in theology, and materialism (he had read some of the latter; he could n't for the life of him remember it) and philosophy.
"He talked," continues Barbour, "and I treasured up. But most on the three tongues, and what was work for poets. Then came afternoon tea and raillery between him and my mother. Then they packed into the pony phaeton—my professor a perfect picture, his broad leghorn bright with a flower, scarlet of seedum, fringed by golden yew, and the ladies a good background."
So you see, it was the same John Stuart Blackie years and years before. "Do stay to tea, man!" he urged, when I said I must be going, that there would be just time to catch such-and-such a train for Glasgow where an appointment was to be kept.
"Ah, then punctuality's the word. Be late and be nothing." He came down to the front door with me, his leghorn flapping, his sash-ends trailing on the stairs. There were volcanic salutations to portraits which we had missed when going up. I said good-bye to the Grand Old Man of Scotland.
"Good-bye," said he, "and dinna forget—Aristotle, Shakespeare, Goethe, and the Apostle Paul—my heroes!"
In the gathering dusk I descended the steps, as he stood in the open doorway, singing, and gazing towards the Corstorphine Hill.
He sat on the lower stair, near the front door of his house, making difficult calculations and strange diagrams in a little book bound in green morocco. It would be five minutes before the carriage started, and he recollected that fact just as he reached the door and had put on his overcoat. Another man, almost any other, would have idled while the five minutes passed, and most men, especially busy men, would have fussed nervously at having to wait when they were ready. But Lord Kelvin, being the busiest of men, never wasted time by fussing, and never lost it in idling. Having five minutes he would solve a problem, so he pulled the memorandum book from his coat pocket, where he always carried it, and sat on the stair and worked.
He was seventy then, but his spirits were as young as those of the youngest of his students. They say that a man is as old as his arteries. The saying might have originated with him, if it ever occurred to him that he had arteries. But I am not sure that the customary anatomy was not, in his case, reinforced by an ingenious system of electrical conductors through which a mysterious energy was driven byhis dynamic mind. Like all great teachers he was ever learning. But it would be difficult to say when he began to learn, for he was only ten years old when he entered the university! And he was thoroughly equipped for entering upon his student work even at that age. At twenty-two he was appointed Professor of Natural Philosophy, and he held that professorship for the rest of his life!
Lord Kelvin was the greatest master of natural science in the nineteenth century. The twentieth century has not, thus far, produced his superior. He was born in 1824, he died in 1908. It was my privilege to know him during the last fifteen years of his life. A kinder man, one more considerate of the abysmal ignorance of the fellow creatures with whom he came into contact, could not be imagined. He was a plain Scotsman without a pose, without even a Scottish pose, and it would be difficult, maybe impossible, to find a better embodiment of life than that. Scottish he was, though born in Ireland. And his fame was associated with that of Glasgow University which had the honour of receiving him into student life and which received the greater honour of his distinguished services for a period almost as long as the psalmist allots to the life of a man.
When he was eighty-three he outlined, as, probably, he had often outlined before, the plan of a boy's education. "By the age of twelve," said he, "a boy should have learned to write his own language with accuracy and some elegance; he should have a reading knowledge of French, should be able totranslate Latin and easy Greek authors, and should have some acquaintance with German. Having learned the meaning of words, a boy should study Logic. I never found that the small amount of Greek I learned was a hindrance to my acquiring some knowledge of Natural Philosophy." Some knowledge of it! There, indeed, was modesty. For who had more knowledge of natural philosophy, or so much, as Lord Kelvin?
Is it necessary to say that he was not born to baronies? Surely, that much all readers may be presumed to know, some wiseacre will remark. But if one were painting a portrait instead of writing it, nothing would be more futile than to omit the subject's nose on the presumption that the public knew he had one. William Thomson, who became Lord Kelvin, was born in Belfast, the younger of two brothers. The elder brother was James, and he became famous as a professor of engineering. He died, however, some fifteen years before his brother. James was named for his father, and that James, the father, was born on a farm near Ballynahinch, County Down. His Scotch ancestors had planted themselves in Ireland in the seventeenth and eighteenth centuries. That farmer's boy had a huge hunger for knowledge. When he was eleven or twelve years old he taught himself, having no teacher to aid him, the principles of the sundial, so that he could make dials for any latitude. Also, from books which he contrived to get, he learned the elements of mathematics. By and by he began teaching in a little school. He taught in the summers, and inthe winters he studied at Glasgow University, continuing to do so for five years, and then he was appointed a teacher in the Royal Academic Institute of Belfast. When his son William had reached the age of eight, the scholarly parent was appointed to the Professorship of Mathematics at Glasgow University, a position he held for twenty years. His scientific attainments were high, and his classical scholarship was distinguished. He educated his sons himself, until each was ten, and then sent each to the university. Lord Kelvin said to me once, when we were talking of those early days: "I had a great father."
The Kelvin is a little stream that winds through the grounds of Glasgow University. When Queen Victoria bestowed a peerage upon Sir William Thomson (she had knighted him many years before that) he chose for his title the name of the little stream by whose side he had spent his fruitful and illustrious life. His had been a life of labour, but it had been congenial labour. He had contributed vastly to the sum of human knowledge; he had invented useful things, to the amazement of pedantic men who think that science should remain with scientific persons and never be applied to the wants of the world; at least, not applied by the scientific discoverer of the principles or things. But with all his theories he was a practical man, and he prospered. That day when he sat on the stair for five minutes, and concentrated the training of sixty years upon the page of a notebook, we went to White's.
Once upon a time there was a White, a James White, who, in Glasgow, made instruments of precision which found their way all over the world. And so he became the maker of various things that Sir William Thomson, afterward Lord Kelvin, had invented. When White died, or retired, or possibly before that, Kelvin acquired his business and establishment and continued the manufacture of instruments of precision, the establishment being conducted under White's name, as before, and as possibly it may be to this day. Anyhow, we went to White's, where Lord Kelvin took me into his laboratory and showed me, among other things, his "Siphon Recorder" which was very interesting, albeit very puzzling to the non-technical mind. I asked him what it did. The technical descriptions I had read were rather baffling. His answer was: "The electric current in an under-sea cable, say an Atlantic cable, is very weak and weary. This reaches out from the shore, and helps it along, and writes down what it says." It was for this invention that he was knighted in 1866. He had connected the hemispheres.
He was one of the courageous and hopeful band that laid and worked the first Atlantic cables. Submarine telegraphy had been first employed in 1850 when a line was laid across the English Channel between Dover and Calais. But the scientific camps were divided in opinion about the practicability of working across thousands of miles of ocean-bed. One faction declared it "beyond the resources of human skill." Robert Stephenson said the project could end only in failure. Of course, themoneyed men were timid. Most of them were more than timid; they were scared. Faraday had found that the transmission of signals by submarine cable, on a line from Harwich to Holland, was not instantaneous. "The line leaked," said the financial men, "and most of the electricity that was pumped into it spilled into the sea. This does not occur on land lines," they said; "we will not invest."
William Thomson discovered and formulated "the law which governs the retardation of electrical signals in submarine lines." Whitehouse found that with a line 1125 miles long, a signal required a second and a half for transmission. Thomson's law showed that on a line long enough to connect Ireland with Newfoundland the transmission of a signal would require six seconds. This meant a dismally limited service. Only a few words could be cabled in an hour. The croakers were pleased. The men whose habit it is to say "I told you so" were joyous. The financiers would use their capital for other purposes. But Cyrus Field of New York found the money, and William Thomson found the way to utilize his own law to make success out of what had seemed to others to be defeat. He invented the "Siphon Recorder." Then the cable was laid under the Atlantic, and on August 17, 1858, Thomson's instruments sent and received this message:
"Europe and America are united by telegraph. Glory to God in the highest, and on earth peace and goodwill toward men."
Two weeks later the cable broke. The world jeered and lost faith, according to its habit. Somecalled the cable undertaking "a swindle", some "a hoax", some a silly toy. These were thoughtful critics. Eight years passed, eight years of effort to make and submerge a cable that would endure. In 1866 the difficulties were overcome. The world congratulated itself and the men who had worked the "miracle." Lord Kelvin told me the story as if it had been a little affair of the day before. "There has been so much to think of since then," said he, "and there is so much more to be done! Harnessing Niagara is one thing." The men who plan things and do them were already planning for that, and as in the cable project, they called in Lord Kelvin to help.
"How far can we transmit electricity for power and lighting purposes?" they asked.
"Three hundred miles," said he.
They laid their plans for a much shorter distance, within a hundred miles, and they thought that Kelvin was dreaming. Years later, when power and lighting current had been successfully conveyed over much greater distances than Kelvin had suggested, an acquaintance of mine asked him: "Why did n't you tell us that electric power can be conducted over these greater distances? I thought three hundred miles was the limit."
"The limit is not known," replied Lord Kelvin. "In the case you refer to, I answered a specific question regarding a specific plan undertaken for commercial purposes. The limit was improved by time and circumstance, not by Nature. Ten years ago we could not build the machinery that is builtto-day, nor, on a great scale, employ the conductors that are used to-day. My suggestion concerned the means then known, not the means that might be developed in a decade."
"Well, I lost a chance," said the would-be investor, who was also a Scot.
"So, I imagine, did the capitalists of Archimedes' day. You will remember that they failed to provide him with a fulcrum," said Lord Kelvin dryly.
Lord Kelvin, when a young man, became permanently lame as the result of a skating accident, but his lameness did not retard his physical activity. Sir William Ramsay, the celebrated chemist who had been a pupil of Kelvin, said that it "lent emphasis to his amusing class demonstration of 'uniform velocity' when he, Kelvin, marched back and forth behind his lecture-bench with as even a movement as his lameness would permit; and the class generally burst into enthusiastic applause when he altered his pace, and introduced them to the meaning of the word 'acceleration.'"
Ramsay's opinion was that Kelvin "was not what would be called a good lecturer; he was too discursive." Ramsay doubted whether any man "with a brain so much above the ordinary, so much more rapid in action than the average, can be a first-rate teacher.... But Kelvin never allowed the interest of his students to flag. His aptness in illustration and his vigour of language prevented that. Lecturing one day on 'Couples', he explained how forces must be applied to constitute a Couple and illustrated the direction of the forces by turning around thegas-bracket. This led to a discussion on the miserable quality of Glasgow coal-gas and how it might be improved. Following again the main idea, he caught hold of the door and swung it to and fro; but again his mind diverged to the difference in the structure of English and Scottish doors. We never forgot what a 'Couple' was—but the idea might have been conveyed more succinctly." Yes, and ten to one the receivers of it would have forgotten what a "Couple" was!
I heard Kelvin address the Royal Society in London while he was president of that body. He had invited me to come, and I was curious enough to see the most distinguished scientific body in the world learning something from the world's most distinguished mathematician, electrician, and natural philosopher. The hall in Burlington House was filled. Had an earthquake swallowed the hall then, the world would have been deprived instantaneously of dozens of men who were doing its thinking for it. The subject of the discourse was not thrilling, nor could the lecturer have been accused of an attempt to pander to popularity. The subject was "The Homogeneous Division of Space." There shot through the hour's talk a stream of descriptive phrases such as "tetrakaidekahedronal cells", "parallelepipedal partitionings", "enantiomorphs ", and their progeny.
The genial old gentleman on the platform would rest his weight upon his hands on the table, or the lecture-desk, and lean forward towards his audience, and tell some puzzling facts about nature's puzzles,pouring streams of numbers and their multiplications and divisions into their ears while they floundered in the mathematical deluge. He would see that he had them puzzled, that his mind was working too fast for them; he must have surmised it from the expressions on their faces, for while he announced theories, discoveries, and drew conclusions, they, with all their knowledge and experience, would look as blank or bewildered as schoolboys, and he would step back from the table and, with a winning smile, remark, "It's this way", or "After all, it's simpler than it seems", or "I think it would be demonstrated so", and turning swiftly on one heel would face the blackboard and draw upon it in strokes that were like flashes, a diagram which made it all so clear that his hearers chuckled, or laughed outright; then swiftly he would turn again and face them with that winning smile which seemed to mean, "See how simple it is!" Then they would applaud him, which is very difficult for the Royal Society to do.
Lord Kelvin's was the first house in the world to be lighted by electricity throughout. He utilized the current in every nook and corner, in attics and cellars, in cupboards, closets and wardrobes, long before anybody else had attempted to do so. This was when everybody else thought electric lighting a luxury, but his purpose was to prove it a necessity. That was his way. Whenever he acquired new knowledge he applied it forthwith to the betterment of the human lot. He thought that science for the sake of science, or scientists, was as stupid a formula as "art for art's sake." Cheese for cheese's sakewould be quite as useful to mankind. Of what use was knowledge if it were not applied to the needs of man?
He was a yachtsman, but not for sporting purposes, or faddishness, or luxurious idleness. He loved the sea, and his yacht, a schooner namedLalla Rookh, enabled him to wrest from the sea some of its secrets. For twenty years he went sailing every summer, living aboard weeks at a time. He held the certificate of a master navigator. It was on board theLalla Rookhthat he invented his famous apparatus for taking soundings and his no less famous compass. These things became necessities for navigators.
The first pair of telephonic instruments that Alexander Graham Bell brought to Europe were presented by him to Lord Kelvin, who immediately put them to use by connecting his house with that of his brother-in-law and assistant, Doctor J. T. Bottomley. The first electrically lighted house in the world was the first in the old world to be connected by telephone for purposes professional, social, personal, and domestic. For how could Kelvin, who was always peering into the future, be afraid of new things? He peered into the past, too, for you remember how he startled the orthodox mind by his calculations regarding the age of the earth.
Lord Salisbury, just before he became Prime Minister for the last time (his long term of 1895-1902) was Chancellor of the University of Oxford and at the same time President of the British Association for the Advancement of Science. At Oxford,in a memorable year, and in behalf of the University of which he was chancellor, he welcomed the association of which he was president, and he reminded his learned listeners that Lord Kelvin, whom he alluded to as "the greatest living master of natural science amongst us", was the first to point out that the amount of time required by the advocates of the Darwinian theory for the working out of the process of evolution which they had imagined "could not be conceded without assuming the existence of a totally different set of natural laws from those with which we are acquainted." Hot things cool. The once seething earth has cooled and is cooling. So many million years ago it must have been hotter than now by calculable degrees. "But if at any time it was hotter at the surface by fifty degrees Fahrenheit than it is now, life would then have been impossible on this planet."
Lord Kelvin assured us that organic life on earth cannot have existed more than a hundred million years ago. So if you believed in Archbishop Ussher's chronology, and niggardly dealt out to the earth an age of only six thousand years, or went so far as Professor Tait with his ten million, you had, by Kelvin's figuring, a tremendous margin to fill up somehow. Of course the orthodox jumped and squealed. But the geologists and biologists stamped and yelled. Some of them wanted more than Kelvin's stingy allowance; they wanted not one hundred million years, but hundreds of millions. And there was a pretty ferment in the camps!
Sir William Ramsay I have quoted on Kelvin'sillustration, in the class room, of the term "acceleration." Kelvin maintained speed when he had got it up. Remember that he was lame, and consider his energy. He would dart at an object that stood a few feet from him, on his lecture-bench, use it for whatever demonstration was required, and then dart at another, or at the blackboard, or at the pointer, as if he were a busy bee extracting honey from the flowers. There was certainty about everything he did; no hesitation, no floundering, no hemming and hawing for a word, or the next act. His lameness merely lent emphasis to the fact that he was walking; it did not prevent his swiftness of movement. Across the grounds of the university I toiled after him like "panting time." He gave the impression of readiness for a race, and might challenge you at any minute. His gown was always streaming behind him, his mortar-board cap in imminent danger of blowing off in the breeze stirred by his advance. Well, he had raced the world many years and had always won.
Some great men are so impressed by their own greatness that their manner becomes ponderous and vast as if they lived in a belief that they cast shadows on the sun. Not so Lord Kelvin, who never seemed to think that great men thought him a greater than themselves. His manner was simple, gentle, courteous, and direct. He was easy to talk with, and yet he had no small talk. But it was not easy to answer his questions. There was never such a man as he for asking questions unless it were the Chinese Viceroy, Li Hung Chang. Whatever your profession,trade, interests in life, he would put questions that went to the roots of your matter and revealed on his part a greater knowledge of the problems involved than you dreamed existed. By tireless questioning he learned. But where Li Hung Chang turned the results of his questioning to his own benefit, Kelvin applied them to the good of the world. Yet when, in 1896, they celebrated the fiftieth anniversary of his professorship at Glasgow he was, I take it, the most surprised man in all the galaxy of the famous. The dear old gentleman with the domed head, the white hair, and generous white beard seemed to be asking himself, "What next? Why all this fuss and feathers?" But he was apparently genuinely pleased, too, for all the tributes bespoke honest admiration of achievement and character. Fifty-one learned societies, twelve colleges, and twenty-eight universities were represented. They were of all countries. That day the world, and all that was therein, lifted its hat to Lord Kelvin.
I may slip in here a quotation from Emerson. "In Newton," said Emerson, "science was as easy as breathing; he used the same wit to weigh the moon that he used to buckle his shoes; and all his life was simple, wise, and majestic. So it was in Archimedes—always self-same, like the sky. In Linnæus, in Franklin, the like sweetness and equality—no stilts, no tiptoe; and their results are wholesome and memorable to all men."
What Lord Kelvin had done, and was still to do, could not be described by any writing of less than encyclopaedic scope, and a knowledge as wide anddeep as his own. Helmholtz may be quoted, as he has been quoted by many who attempted the larger task from a scientific standpoint. Helmholtz was his intimate friend. Helmholtz said: "He is an eminent mathematician, but the gift to translate real facts into mathematical equations, and vice versa, is, by far, more rare than to find a solution of a given mathematical problem, and in this direction he is most eminent and original."
Kelvin's first published paper was a defence of the mathematician, Fourier. His second was on "The Uniform Motion of Heat in Homogeneous Solid Bodies, and Its Connection With The Mathematical Theory of Electricity." I think he was eighteen then. He was certainly showing the bent of his mind. Fifty or sixty years later he said, in a presidential address to the Royal Society: "Tribulation, not undisturbed progress, gives life and soul, and leads to success where success can be reached." I do not know what his tribulations were, but they may have been the tribulations of defeat. He may have faced many defeats, but he won more successes. And the world was more concerned with scientific discoveries during his career than it had been in the time of Count Rumford and Humphry Davy, whose work in disproving that heat is a material body had been forgotten because nobody seemed to think it more important than curious. Sometime in the eighteen-forties James Prescott Joule ascertained the dynamical equivalent of heat, and settled the fact that heat is a mode of motion. Kelvin may be said to have leaped to the side of his friend.
Lord Kelvin was the first to appreciate the importance of Joule's discovery, and it was not long before he placed the whole subject of thermodynamics on a scientific basis. He put his conclusions into these easily understandable words: "During any transformation of energy of one form into energy of another form, there is always a certain amount of energy rendered unavailable for further useful application. No known process in nature is exactly reversible: that is to say, there is no known process by which we can convert a given amount of energy of one form into energy of another form, and then, reversing the process, reconvert the energy of the second form thus obtained into the original quantity of energy of the first form. In fact, during any transformation of energy from one form into another, there is always a certain portion of energy changed into heat in the process of conversion, and the heat thus produced becomes dissipated and diffused by radiation and conduction. Consequently there is a tendency in nature for all the energy in the universe, of whatever kind it be, gradually to assume the form of heat, and having done so to become equally diffused. Now, were all the energy of the universe converted into uniformly diffused heat, it would cease to be available for producing mechanical effort, since, for that purpose, we must have a hot source and a cooler condenser. This gradual degradation of energy is perpetually going on, and, sooner or later, unless there be some restorative power of which we have, at present, no knowledge whatever, the present state of things must come to an end."
He revealed the Electrodynamics of Qualities of Metals; the size of atoms, the horse-power of the sun; he determined the rigidity of the earth, the laws of the tides, made far-reaching discoveries in electricity, in vortex motion; it might be said of him that he took the universe for his field.
But in a chapter like this one is tempted to dwell too long on high achievements. What attracted one more than the achievements was the man, the kindly, sympathetic man who loved truth not celebrity, and work more than its rewards. He was ever the same, whether one met him in Glasgow, London, at sea, or in America, the same simple, straightforward, kindly character. He retained his mental activity to the end. He died at eighty-four, and seemed only to be departing on another journey in quest of truth and friendship.
On one of the afternoons when I sat with him in his study, within the precincts of the university, he said, "Patience, great patience is the need of this generation. It asks results before it earns them. Man is too wasteful of the resources he finds in the earth. The most of our coal is lost in smoke; the most of our heat is dissipated in the air. We need patience not less than courage in dealing with our problems." The study was lined with engravings and photographs. Darwin and Joule and Faraday looked down from the walls, and there were pictures of the cable-laying ships, theHooper, and theGreat Eastern. There were trophies of travel,—from specimens of sea-bottom along the African coast, to quite personal mementos of his lectures atJohns Hopkins University and other places in America.
A typical day of Lord Kelvin's was, in outline, this: After breakfast he would, at nine, face his class in the university and lecture for an hour. I heard him in such an hour lecture on "Kepler's Laws." He lectured to his class three days a week. After the lecture he would go to White's where he was perfecting an electric metre. After White's he would return to the university and lecture until one o'clock, say, on the "Higher Mathematics." Then home to lunch. After lunch consulting work on the lighting of a town by electricity. After that an hour in Lady Kelvin's drawing-room, taking tea with friends. Then work in the study over the laws governing the formation of crystals. Then dinner. Then calculations in the study, or writing a paper for one of the numerous societies of which he was a working member. In the intervals, with his secretary's aid, he would attend to his correspondence. And, if waiting for his secretary, out of a coat pocket would come the little green book, and into it would go notes, calculations, or diagrams, perhaps all three. That little green book would come out whenever he had a minute to spare, in his dressing-room, or on the stairs, or in a train, or a cab, wherever he happened to be, and the thought flashed. I often wondered what his thoughts were on the conservation of personal energy.
Freshwater is an overgrown village which sprawls about the western end of the lovely Isle of Wight. The meanness of much of its masonry is compensated by its remarkably wholesome air. Man has done his best to spoil Freshwater, but he has not wholly succeeded—yet. Give him time, and more radicalism, and he will make it one of the ugly spots of earth. I made its acquaintance in the early spring of 1882, and subsequently have visited it many times.
When I first made acquaintance with Freshwater, there was no railway within eleven miles, Newport being the terminus of the island lines which were as drolly inconvenient as they are now. The fiddling, amateurish railway, which has come in since then, has not only robbed Freshwater of its seclusion but has saddled parts of the rolling country with shabby streets of mean houses worthy of a Montana mining town. Towards the downs and the sea much of the old charm remains. About Farringford it is undisturbed. And it was at Farringford, that lovely estate, that Tennyson lived.
I had quarters in a house that faced the sea. And these quarters were mine whenever, in thethirty-six years since that delightful May, I returned to Freshwater. They are mine no longer. The house has become an hotel. Now, in the thirty-eighth year of my Freshwatering, I have lodgment elsewhere. The house that sheltered me so long is scarcely a quarter of a mile from Tennyson's Lane, and many of the poet's friends have stayed in it, and friends of Watts, for that great artist also lived in Freshwater, first at a house which is now called Dimbola, and subsequently at "The Briary", a charming home built by the Prinseps and facing Tennyson's "noble Down." In the rooms to which I have so often retreated, and where I so often watched the blue Channel dancing in the sunshine, there are, or were, many mementos of past days. Some of them were photographs, and, as any one who knows the Freshwater legends may guess, they were taken by Mrs. Cameron, the first of the artist photographers, and, in her day, the celebrator of all the celebrated who came to Freshwater to visit the poet.
Mrs. Cameron lived at Dimbola which is at the southeastern corner of the Farringford estate. "She were a concentric lady who wore velvet gowns a-trailin' in the dusty roads," as one old-timer described her to me. Her photography was not professional but amateur, and her skill in it was quite remarkable. So was her persistence. She would not permit a possible "subject" to escape without "taking" him or her. She was quite intimate with the Tennysons, and always called the poet by his Christian name. One day, while there was a smallpox scare about, she rushed to Farringford,with a stranger in tow, and finding Tennyson within, she opened the door of the room where he was sitting, and bidding the stranger follow, cried, "Alfred, I 've brought a doctor to vaccinate you. You must be vaccinated!"
Tennyson, horrified, fled to an adjoining room and bolted the door after him.
"Alfred, Alfred," Mrs. Cameron called, "I've brought a doctor. You must be vaccinated; you really must!"
There was no reply.
"Oh, Alfred, you 're a coward! Come and be vaccinated!"
She won.
When Garibaldi visited Tennyson, he planted a tree in the Farringford grounds. And Mrs. Cameron planted herself before him, and begged him to come and be photographed. Rather eccentric, as my old-timer had tried to convey, she had that morning hastened to Farringford without hat, or gloves, and with her sleeves rolled up, just as she came from her "dark room", and her hands were stained with photographic chemicals. Garibaldi seems to have taken her for a beggar and was turning away, when she knelt before him and implored him to let her photograph him.
Again she won. She always won in such contests.
Mrs. Cameron's day was before the days of dry plates and films. The accumulation of negatives that she left when, with her husband, she returned to Ceylon, where they had formerly lived for many years, passed into the possession of a son. I do notknow what has been their subsequent fate; but if uninjured they would be very interesting now, and a collection of prints from them would have a value all its own. She made a number, I daresay many photographs of Tennyson and the members of his family; and when Longfellow came to Farringford, the good lady triumphantly proclaimed him a captive.
She was a kind-hearted, good-natured soul, but when she wanted to carry a point she could be as imperious and decisive as any one that ever lived in the Isle. The neighbourhood children she would persuade by "sweeties", or, failing these, by main force, to "come and be photographed" in this character or that, and there were maid servants with classic faces and ploughmen with fine heads who posed for her as characters in plays and poems, in costumes which she would improvise. Mrs. Cameron was a generous, interesting, impulsive woman. Much of Freshwater legend gathers about her, and her camera, and her diligence in amateur theatricals.
In my island study there hung for many years the two best photographs of Tennyson that I ever saw. They were taken by Mrs. Cameron. The first was, I believe, taken about 1870, or '72. It represents the poet seated, and holding with both hands a book half opened in his lap. He wears a black morning coat, closely buttoned, cut in the fashion of the time. Instead of the big rolling collar usually shown in his portraits, here is the stiff "dickey" of Piccadilly; the cuffs, too, are in the mode, and over the coat amonocle hangs. It is quite out of the style of other Tennyson portraits with which I am reasonably familiar, but on that account it has a special interest of its own. The second photograph, to which I have alluded, is not only thoroughly characteristic but has achieved some fame as "The Dirty Monk", and is thus autographed by its original:
"I prefer 'The Dirty Monk'to the others of me.A. Tennyson.Except one by Mayall."
When I returned to Freshwater for three or four months in 1913, after several years' absence, I looked, as usual, for this precious pair. But they had gone, and no one could tell, or would tell, when or where. Some souvenir hunter must have loved them too well.
There are, or were, some Morland prints, too. George Morland lived and painted in Freshwater, in a bit cottage that stood in front of the site of this house, but which disappeared nearly a century ago. Mrs. Cameron, could she revisit the glimpses of the moon, would find her quiet old village developed into a sprawling, country town. It had five hundred inhabitants when Tennyson first came to it in a sailboat from the mainland, in 1852, or 1853; it has between five and ten thousand now, west of the Yar. The number shifts with the summer visitors, and the military cannot be counted, for they come and go in a variable stream. Ever since the war began, the fit and the wounded, the trained and theuntrained have passed through in large numbers, or have stayed for longer or shorter terms. A war town has grown up on a border of the old town. Golden Hill is now an expanse of barrack huts and not of yellow gorse.
Mrs. Cameron believed in getting things done, not in talking about them. She transformed the coal shed at Dimbola into a dark room for developing her negatives; and the poultry house became a studio. When her husband, a recluse who had n't so much as seen the beach for a dozen years, wanted a lawn, she had turf dug by night and laid in the garden. Calling her husband to the window next morning, she pointed to the expanse of new-laid turf and said, "There 's your lawn!" as if any one would deny her power to work miracles.
Farringford, of course, is enclosed by hedges and trees, literally surrounded by them. The house itself is still further protected from the gaze of the outer world by an inner circle of trees and shrubbery. The estate is bisected by the lovely lane which has been described in every account ever written of Tennyson, and photographed a thousand times. It, in turn, has a hedgerow on each side and is over-arched by elms. It is really an approach to the farm which is attached to the home acres, and through it, for walking purposes, the public has a right-of-way. At the crest of the rising ground is a little green door, set in the high-banked hedge which guards the home lawns, and by this green door the poet would pass to the down along another lane which runs at right angles to the one associated with hisname and immediately opposite the green door. A few feet beyond this, a rustic bridge overhead spans Tennyson's Lane, and by this bridge the poet could cross into a woodland without having to enter the Lane, where his privacy might be disturbed, and so walk to Maiden's Croft, where a little green summerhouse stands under the trees and where he often wrote and meditated. From this summerhouse he had the best view of the beautiful and noble down. From the windows of Farringford there are exquisite views of seascape and landscape, with lush fields in the foreground,—a view, on sunny days, of quite un-English colour. In the distance St. Catherine's Point and above it the white crown of the Landslip, and above that the dark shape of St. Boniface Down, lifting its head eight hundred feet toward the clouds; in the middle distance a tumble of green hills, and to the right the sea dappled with shafts of light and colour ever changing,—mauves and blues and greens, splashed with browns and reds, shifting and playing there under the sun. It might be Italian sea and Italian landscape. And Tennyson called it his "bit of Italy." You can see it just as he saw it, if you pause at an iron gate on your left, near the top of the rise in the Lane, and you will have in the foreground a group of Italian-like trees beyond which Stag Rock and Arched Rock stand with their feet in the tiny bay. It is of all bits of English land and water one of the most memorable for form and colour,—this little Italy. And it drew Tennyson to Farringford and held him there.