Copyright, 1903, by
McCLURE, PHILLIPS & CO.
Published, November, 1903, N
TABLE OF CONTENTS
| CHAPTER I | ||
| PAGE | ||
| The Miracle of Radium | [3] | |
| Story of the Marvels and Dangers of the New Element Discovered by Professor and Madame Curie. | ||
| CHAPTER II | ||
| Flying Machines | [27] | |
| Santos-Dumont's Steerable Balloons. | ||
| CHAPTER III | ||
| The Earthquake Measurer | [79] | |
| Professor John Milne's Seismograph. | ||
| CHAPTER IV | ||
| Electrical Furnaces | [113] | |
| How the Hottest Heat is Produced—Making Diamonds. | ||
| CHAPTER V | ||
| Harnessing the Sun | [153] | |
| The Solar Motor. | ||
| CHAPTER VI | ||
| The Inventor and the Food Problem | [173] | |
| Fixing of Nitrogen—Experiments of Professor Nobbe. | ||
| CHAPTER VII | ||
| Marconi and his Great Achievements | [207] | |
| New Experiments in Wireless Telegraphy. | ||
| CHAPTER VIII | ||
| Sea-Builders | [255] | |
| The Story of Lighthouse Building—Stone-Tower Lighthouses, Iron Pile Lighthouses, and Steel Cylinder Lighthouses. | ||
| CHAPTER IX | ||
| The Newest Electric Light | [293] | |
| Peter Cooper Hewitt and his Three Great Inventions — The Mercury Arc Light—The New Electrical Converter—The Hewitt Interrupter. | ||
LIST OF ILLUSTRATIONS
| Page | |
| Guglielmo Marconi[Frontispiece] | |
| M. Curie Explaining the Wonders of Radium at the Sorbonne | [5] |
| Dr. Danlos Treating a Lupus Patient with Radium at the St. Louis Hospital, Paris | [13] |
| Radium as a Test for Real Diamonds | [19] |
| At the approach of Radium pure gems are thrown into great brilliancy, while imitations remain dull. | |
| M. and Mme. Curie Finishing the Preparation of some Radium | [25] |
| M. Alberto Santos-Dumont | [29] |
| Severo's Balloon, the "Pax," which on its First Ascent at a Height of about 2,000 feet, Burst and Exploded, Sending to a Terrible Death both M. Severo and his Assistant | [33] |
| The Trial of Count Zeppelin's Air-Ship, July 2, 1900 | [37] |
| M. Santos-Dumont at Nineteen | [41] |
| M. Santos-Dumont's First Balloon (Spherical) | [43] |
| M. Santos-Dumont's Workshop | [45] |
| "Santos-Dumont No. 1" | [49] |
| Basket of "Santos-Dumont No. 1" | [52] |
| Showing propeller and motor. | |
| "Santos-Dumont No. 1" | [54] |
| Showing how it began to fold up in the middle. | |
| "Santos-Dumont No. 5" Rounding Eiffel Tower, July 13, 1901 | [57] |
| The Interior of the Aërodrome | [61] |
| Showing its construction, the inflated balloon, and the pennant with its mystic letters. | |
| The Fall into the Courtyard of the Trocadero Hotel | [65] |
| "Santos-Dumont No. 5." | |
| "Santos-Dumont No. 6"—The Prize Winner | [69] |
| Air-Ship Pointing almost Vertically Upward | [73] |
| Falling to the Sea | [73] |
| Just Before the Air-Ship Lost all its Gas | [74] |
| Losing its Gas and Sinking | [74] |
| The Balloon Falling to the Waves | [75] |
| Boats Around the Ruined Air-Ship | [75] |
| Manœuvring Above the Bay at Monte Carlo | [77] |
| Professor John Milne | [80] |
| From a photograph by S. Suzuki, Kudanzaka, Tokio. | |
| Professor Milne's Sensitive Pendulum, or Seismograph, as it Appears Enclosed in its Protecting Box | [81] |
| The Sensitive Pendulum, or Seismograph, as it Appears with the Protecting Box Removed | [81] |
| Gifu, Japan, after the Earthquake of 1891 | [85] |
| This and the pictures following on pages 89, 101, 111, are from Japanese photographs reproduced in "The Great Earthquake in Japan, 1891," by John Milne and W. K. Burton. | |
| The Work of the Great Earthquake of 1891 in Neo Valley, Japan | [89] |
| Diagram Showing Vertical and Horizontal Sections of the More Sensitive of Professor Milne's Two Pendulums, or Seismographs | [93] |
| Seismogram of a Borneo Earthquake that Occurred September 20, 1897 | [94] |
| Effect of the Great Earthquake of 1891 on the Nagara Gawa Railway Bridge, Japan | [101] |
| Pieces of a Submarine Cable Picked Up in the Gulf of Mexico in 1888 | [108] |
| The kinks are caused by seismic disturbances, and they show how much distortion a cable can suffer and still remain in good electrical condition, as this was found to be. | |
| Record made on a Stationary Surface by the Vibrations of the Japanese Earthquake of July 19, 1891 | [111] |
| Showing the complicated character of the motion (common to most earthquakes), and also the course of a point at the centre of disturbance. | |
| Table of Temperatures | [115] |
| Mr. E. G. Acheson, One of the Pioneers in the Investigation of High Temperatures | [125] |
| The Furnace-Room, where Carborundum is Made | [131] |
| "A great, dingy brick building, open at the sides like a shed." | |
| Taking Off a Crust of the Furnace at Night | [135] |
| The light is so intense that you cannot look at it without hurting the eyes. | |
| The Interior of a Furnace as it Appears after the Carborundum has been Taken Out | [143] |
| Blowing Off | [147] |
| "Not infrequently gas collects, forming a miniature mountain, with a crater at its summit, and blowing a magnificent fountain of flame, lava, and dense white vapour high into the air, and roaring all the while in a most terrifying manner." | |
| Side View of the Solar Motor | [155] |
| Front View of the Los Angeles Solar Motor | [159] |
| The Brilliant Steam Boiler Glistens in the Centre | [163] |
| The Rear Machinery for Operating the Reflector | [167] |
| Trees Growing in Water at Professor Nobbe's Laboratory | [187] |
| Experimenting with Nitrogen in Professor Nobbe's Laboratory | [191] |
| Mr. Charles S. Bradley | [198] |
| Mr. D. R. Lovejoy | [199] |
| Eight-Inch 10,000-Volt Arcs Burning the Air for Fixing Nitrogen | [200] |
| Machine for Burning the Air with Electric Arcs so as to Produce Nitrates | [201] |
| Marconi. The Sending of an Epoch-Making Message | [206] |
| January 18, 1903, marks the beginning of a new era in telegraphic communication. On that day there was sent by Marconi himself from the wireless station at South Wellfleet, Cape Cod, Mass., to the station at Poldhu, Cornwall, England, a distance of 3,000 miles, the message—destined soon to be historic—from the President of the United States to the King of England. | |
| Preparing to Fly the Kite which Supported the Receiving Wire | [213] |
| Marconi on the extreme left. | |
| Mr. Marconi and his Assistants in Newfoundland: Mr. Kemp on the Left, Mr. Paget on the Right | [217] |
| They are sitting on a balloon basket, with one of the Baden-Powell kites in the background. | |
| Marconi Transatlantic Station at Wellfleet, Cape Cod, Mass. | [229] |
| At Poole, England | [231] |
| Nearer View, South Foreland Station | [235] |
| Alum Bay Station, Isle of Wight | [237] |
| Marconi Room, S.S. Philadelphia | [241] |
| Transatlantic High Power, Marconi Station at Glace Bay, Nova Scotia | [247] |
| Work on the Smith Point Lighthouse Stopped by a Violent Storm | [254] |
| Just after the cylinder had been set in place, and while the workmen were hurrying to stow sufficient ballast to secure it against a heavy sea, a storm forced the attending steamer to draw away. One of the barges was almost overturned, and a lifeboat was driven against the cylinder and crushed to pieces. | |
| Robert Stevenson, Builder of the Famous Bell Rock Lighthouse, and Author of Important Inventions and Improvements in the System of Sea Lighting | [256] |
| From a bust by Joseph, now in the library of Bell Rock Lighthouse. | |
| The Bell Rock Lighthouse, on the Eastern Coast of Scotland | [257] |
| From the painting by Turner. The Bell Rock Lighthouse was built by Robert Stevenson, grandfather of Robert Louis Stevenson, on the Inchcape Reef, in the North Sea, near Dundee, Scotland, in 1807-1810. | |
| The Present Lighthouse on Minot's Ledge, near the Entrance of Massachusetts Bay, Fifteen Miles Southeast of Boston | [260] |
| "Rising sheer out of the sea, like a huge stone cannon, mouth upward."—Longfellow. | |
| The Lighthouse on Stannard Rock, Lake Superior | [261] |
| This is a stone-tower lighthouse, similar in construction to the one built with such difficulty on Spectacle Reef, Lake Huron. | |
| The Fowey Rocks Lighthouse, Florida | [264] |
| Fourteen-Foot Bank Light Station, Delaware Bay, Del. | [268] |
| The Great Beds Light Station, Raritan Bay, N. J. | [270] |
| A specimen of iron cylinder construction. | |
| A Storm at the Tillamook Lighthouse, in the Pacific, one mile out from Tillamook Head, Oregon | [275] |
| Saving the Cylinder of the Lighthouse at Smith Point, Chesapeake Bay, from being Swamped in a High Sea | [279] |
| When the builders were towing the unwieldy cylinder out to set it in position, the water became suddenly rough and began to fill it. Workmen, at the risk of their lives, boarded the cylinder, and by desperate labours succeeded in spreading sail canvas over it, and so saved a structure that had cost months of labour and thousands of dollars. | |
| Great Waves Dashed Entirely Over Them, so that They had to Cling for Their Lives to the Air-Pipes | [285] |
| In erecting the Smith Point lighthouse, after the cylinder was set up, it had to be forced down fifteen and a half feet into the sand. The lives of the men who did this, working in the caisson at the bottom of the sea, were absolutely in the hands of the men who managed the engine and the air-compressor at the surface; and twice these latter were entirely deluged by the sea, but still maintained steam and kept everything running as if no sea was playing over them. | |
| Peter Cooper Hewitt | [292] |
| With his interrupter. | |
| Watching a Test of the Hewitt Converter | [299] |
| Lord Kelvin in the centre. | |
| The Hewitt Mercury Vapour Light | [305] |
| The circular piece just above the switch button is one form of "boosting coil" which operates for a fraction of a second when the current is first turned on. The tube shown here is about an inch in diameter and several feet long. Various shapes may be used. Unless broken, the tubes never need renewal. | |
| Testing a Hewitt Converter | [311] |
| The row of incandescent lights is used, together with a voltmeter and ammeter, to measure strength of current, resistance, and loss in converting. | |
BOYS' SECOND BOOK OF
INVENTIONS
CHAPTER I
THE MIRACLE OF RADIUM
Story of the Marvels and Dangers of the New Element Discovered by Professor and Madame Curie
No substance ever discovered better deserves the term "Miracle of Science," given it by a famous English experimenter, than radium. Here is a little pinch of white powder that looks much like common table salt. It is one of many similar pinches sealed in little glass tubes and owned by Professor Curie, of Paris. If you should find one of these little tubes in the street you would think it hardly worth carrying away, and yet many a one of them could not be bought for a small fortune. For all the radium in the world to-day could be heaped on a single table-spoon; a pound of it would be worth nearly a million dollars, or more than three thousand times its weight in pure gold.
Professor and Madame Curie, who discovered radium, now possess the largest amount of any one, but there are small quantities in the hands of English and German scientists, and perhaps a dozen specimens in America, one owned by the American Museum of Natural History and several by Mr. W. J. Hammer, of New York, who was the first American to experiment with the rare and precious substance.