[93] Mr. Woodcroft, in concluding his remarks about Fulton, disparagingly says that, “If these inventions separately (those borrowed from Watt, Pickard, and Symington) or, as a combination, were removed out of Fulton’s boat, nothing would be left but the hull; and, if the hull be then divested of that peculiarity of form admitted to have been derived from Colonel Beaufoy’s experiments, all that would remain would be the hull of a boat of ordinary construction.... Fulton’s patents and specifications must, therefore, be considered either as mere importations, borrowed (in patent phraseology) from ‘foreigners residing abroad’ ‘or as barefaced plagiarisms.’”

[94] In this judgment Mr. Woodcroft is supported by Mr. Rennie, who considered “Fulton a quack who traded upon the inventions of others.”—Smiles’ “Lives,” vol. ii. p. 237.

[95] “On Saturday morning, at eight o’clock arrived here, from Montreal, being her first trip, the steam-boat Accommodation, with ten passengers. This is the first vessel of the kind that ever appeared in this harbour. She is continually crowded with visitants. She left Montreal on Wednesday, at two o’clock, so that her passage was sixty-six hours, thirty of which she was at anchor. She arrived at Three Rivers in twenty-four hours. She has at present berths for twenty passengers, which next year will be considerably augmented. No wind or tide can stop her. She has 75 feet keel, and 85 feet on deck. The price for a passage up is nine dollars, and eight down—the vessel supplying provisions. The great advantage attending a vessel so constructed is, that a passage may be calculated on to a degree of certainty, in point of time, which cannot be the case with any vessel propelled by sails only. The steam-boat receives her impulse from an open, double-spoked, perpendicular wheel, on each side, without any circular band or rim. To the end of each double spoke is fixed a square board, which enters the water, and, by the rotary motion of the wheel, acts like a paddle. The wheels are put and kept in motion by steam, operating within the vessel. A mast is to be fixed in her, for the purpose of using a sail when the wind is favourable, which will occasionally accelerate her headway.”

CHAPTER II.

Progress of steam navigation in Europe—Clyde mechanics take the lead—James Watt, 1766—Henry Bell, 1800—Correspondence between Bell and Fulton—Letter from Bell to Miller of Dalswinton—The Comet steamer, 1811, plies between Glasgow and Greenock, and afterwards on the Forth—Extraordinary progress of ship-building on the Clyde—Great value and importance of the private building yards—J. Elder and Company; their extensive premises, note—Steam between Norwich and Yarmouth, 1813; between London and Margate, 1815—The Glasgow—Early opposition to the employment of steam-vessels—Barges on the Thames—First steamer between Liverpool and the Clyde—H. M. steam-ship Comet—The Rob Roy and other vessels, 1818—The United Kingdom, 1826—First idea of iron ships, 1830—Proposals of Trevethick and Dickenson, 1809-1815—The Vulcan, 1818—The Aaron Manby, 1821—The Shannon Steam Packet Company, 1824—Mr. John Laird and Sir William Fairbairn—The Elburkah, 1832, and Garry Owen, 1834—The Rainbow, 1837—Messrs. Tod and MacGregor—The Great Britain, 1839-1843—Advantages of iron ships—Action of salt water on iron inconsiderable—Durability, strength, and safety of iron—Affords greater capacity for stowage—Admiralty slow to adopt iron for ships of war—Mr. Galloway’s feathering paddles, 1829—Story of the screw-propeller—Joseph Bramah, 1785—Mr. J. Stevens, 1804—Richard Trevethick, 1815—Robert Wilson, 1833—Captain Ericsson, 1836—The Francis B. Ogden, though successful, fails to convince the Admiralty—Mr. T. P. Smith—The Archimedes—Her trial with the Widgeon, Oct. 1839, and its results—The Rattler and the Alecto, 1843—The Rattler not as successful as expected—Captain Robert J. Stockton efficiently supports Ericsson’s views—His vessel, a complete success, and the first “screw” used for commerce in America—Superiority of Mr. Woodcroft’s “varying” propeller, 1832—In building fit vessels, the trade in which they are to be employed must be considered.

Progress of steam navigation in Europe.

During the progress in America of the art of practically applying steam to marine propulsion the people of Europe were making slow but important improvements in the models of their vessels, and in the development of that art for the purposes of navigation.

Clyde mechanics take the lead.

James Watt, 1766.

In these improvements the mechanics on the Clyde took the lead, establishing there a reputation for the construction of marine engines and more especially of ships adapted to receive them, which they have ever since maintained. In the early part of this century the river Clyde in the vicinity of Glasgow was a scarcely navigable stream, with few or no vessels at its chief port, and these, small craft of not more than 40 tons, drawing, at most, only 5 feet of water when laden. Indeed, my own recollection of that now important river goes back to the time when one could wade across it among the stones at the foot of the old Broomielaw Bridge, and when a small but lucrative salmon fishery was carried on from the two “fishing huts,” then the site where a dock now receives ships of the largest description, and where massive quay walls and numerous warehousing sheds occupy the once verdant grass banks of its southern shore. To the energy and intelligence of the Corporation, and, in later years, through the laudable exertion of a Trust, chosen from members of that body and other citizens of Glasgow, may, in a great measure, be attributed the extraordinary rise and prosperity of a city now possessing an inland navigation and a stream harbour unsurpassed, perhaps, in Europe. Indeed, from the time when James Watt, in 1766,[96] erected in Glasgow his first model of a steam-engine and there laid the foundation of a power which has since revolutionized the commerce of the world, its citizens seem to have specially directed their genius to the development of this mighty agency, their first and necessary step being the improvement of the approaches to their city by the deepening of the Clyde.