- Fast mail-carrying aeroplanes will make postal deliveries everywhere
Fast mail-carrying aeroplanes will make postal deliveries everywhere - The Bicycle
Of the various kinds of velocipedes, four, three, two, and one wheeled, the bicycle seems to be considered the most artistic, is altogether the most in favor, and steadily maintains its ground against all rivals. Whether it will be the model velocipede of the future remains to be seen. The various experiments now being tried will, no doubt, eventually result in a nearly perfect machine, but it will require a season's experience fully to develop the ingenuity of our American artisans. Many have expressed doubts as to the real utility of the velocipede, and the permanency of its use. They seem to think it a frivolous invention only calculated to serve purposes of amusement, and soon to be superseded by some other ephemeral claimant for popularity. Most of these have based their opinions upon the disuse into which rude machines have fallen in former times. But the difference in the construction of the modern velocipede from the primitive one has entirely changed the character of the vehicle. It is no longer a draft vehicle, but a locomotive, and as much superior to the original bar on wheels, as the improved steam locomotive is to the old-time stage-coach. - The Curtiss Biplane in flight
The Curtiss Biplane in flight - Pioneer Locomotive
“Pioneer” locomotive. (1) Air chamber, (2) reversing lever, (3) counterweight, (4) reversing shaft, (5) link hanger, (6) rocker, (7) feedwater line to boiler, (8) link block, (9) link, (10) eccentric, (11) pump plunger, (12) pump steamheater line, (13) feedwater pump, (14) wire netting [bonnet], (15) deflecting cone, (16) stack, (17) stack hopper. (Drawing by J. H. White.) - The Farman Biplane - top view
showing the span of main-planes, elevator, and tail, also the positions of landing gear and pilot’s seat. - The Curtiss Biplane making a turn
The Curtiss Biplane making a turn - Camel and Palanquin
Camel and palanquin [covered canopy - usually refers to a covered litter carried by men ] - The Curtiss Biplane front view
showing the chassis and the position between the planes of the two ailerons (A.A.). - Flying Yankee Velocipede
HEMMING'S UNICYCLE, or "FLYING YANKEE VELOCIPEDE." The single-wheeled velocipede has at length received a palpable body, and " a local habitation and a name." Richard C. Hemming of New Haven, Conn., invented the machine herewith represented, two years ago; but has only recently brought it into the market and applied it to practical purposes.. The main wheel has a double rim, or has two concentric rims, the inner face of the inner one having a projecting lip for keeping the friction rollers and the friction driver in place; each of these being correspondingly grooved on their peripheries. The frame on which the rider sits, sustains these friction wheels in double parallel arms, on the front one of which is mounted a double pulley, with belts passing to small pulleys on the axis of the driving wheel. This double wheel driven, as seen, by cranks turned by the hands. The friction of the lower wheel on the surface of the inner rim of the main wheel is the immediate means of propulsion. A small binding wheel, seen between the rider's legs, serves to keep the bands or belts tight. The steering is effected either by inclining the body to one side or the other, or by the foot impinging on the ground, the stirrups being hung low for this purpose. By throwing the weight on these stirrups, the binding wheel may be brought more powerfully down on the belts. Over the rider's head is an awning, and there is also a shield in front of his body to keep the clothes from being soiled by mud and wet. When going forward, the driving wheel is kept slightly forward of the centre of gravity by the position of the rider. By this means the power exerted is comparatively small. Every turn of the crank is equivalent to a rotation of the great wheel. Mr. Hemming says that this machine can be manufactured for fifty dollars, of a weight of only thirty pounds;- that it will ascend steep grades, and that it can be driven on the roads with but little exertion, at the rate of twenty or even twenty-five miles an hour. This wheel is of a diameter of from six to eight feet. Mr. Hemming's boy of thirteen has one five feet in diameter, the first manufactured, crude in construction, and heavier than necessary, which he propels at the rate of a mile in three minutes. - Swerving at intersections
Swerving at intersections - Boats on Nile about 2500 B.C.
Boats on Nile about 2500 B.C. - Some types of American and foreign aeroplanes
Some types of American and foreign aeroplanes - The Wright Brothers Aero Engine
The Wright Brothers Aero Engine - Primitive Sledge
An early primitive sledge - Some types of American and foreign aeroplanes
Some types of American and foreign aeroplanes - Pilot and passenger
Pilot and passenger - Basque Cart
The Basques, especially those living in the mountains, are proud, happy, and independent. They are easily angered and quick to fight. They love their old life and customs and dislike changes. They still use many old-fashioned things such as the clumsy ox-cart, with great, solid wooden wheels and heavy wooden axle. The old dress has disappeared in many places, but is picturesque. Men wear rather loose and baggy trousers, a close-fitting vest, a sort of blouse or jacket that reaches only to the waist, a wide, white collar turned down over the neck of the blouse, and a loose necktie with streaming ends. They wear a loose cap jauntily on the head. Men and women both delight in bright colors. - Methods to get to the right place in a garage
When putting the car in place in the garage you must also maneuver carefully. The main thing is that you get in your place and as best you can. Too much brio results in broken walls and bent mudguards. If it makes you nervous, this twisting back and forth, feel free to leave it to someone else. It is not everyone's job and it is precisely with this shunting that small causes can have major consequences. [Translated online from the Dutch ] - Diagram comparing the Pioneer with the Columbia
Diagram comparing the Pioneer (shaded drawing) with the Columbia, a standard 8-wheel engine of 1851. (Drawing by J. H. White.) Columbia Hudson River Railroad Lowell Machine Shop, 1852 Wt. 271/2 tons (engine only) Cyl. 161/2 x 22 inches Wheel diam. 84 inches Pioneer Cumberland Valley Railroad Seth Wilmarth, 1851 121/2 tons 81/2 x 14 inches 54 inches - A modern Balloon
Coal-gas superseded hot air in the filling of balloons, the latter being unsatisfactory, seeing that it cooled rapidly and allowed the balloon to descend; the only alternative being to do what some of the first aeronauts did, and burn a fire below the neck of their balloon even when in the air. But the dangers of this were great, seeing that the whole envelope might easily become ignited. With balloons filled with coal-gas long flights were possible, but they had always this disadvantage—the voyagers were at the mercy of the wind, and could not fly in any direction they might choose. If the wind blew from the north then they were driven south, the balloon being a bubble in the air, wafted by every gust. Aeronauts became disgusted with this inability to guide the flight of a balloon, and many quaint controls were tested; such, for example, as the use of a large pair of oars with which the balloonist, sitting in the car of his craft, rowed vigorously in the air. - Turn Signal
If you have to take a side road on the right, keep your arm stretched out in horizontal direction outside the car. [Translated online from the Dutch ] - Parking
When you stop in a street, don't forget to reach out first, as a sign for the vehicle following you. Place your car neatly along the sidewalk, not crooked or in such a way that traffic is obstructed by it. You must intervene two vehicles or cars get into the car, then drive a little further, and then reverse between the cars. Do not drive straight over to the left side of the street, against the traffic, but drive to the right and then turn along the direction of the traffic, until you are in front of the house, where you want to be. [Translated online from the Dutch ] - The Farman Biplane
In July, at Rheims, there was to be the great flying meeting; and Farman had made up his mind to wait for this. Aided by the experience he had gained with the Voisin machine, he had designed a craft which should be generally more efficient and faster in flight, and more quickly responsive to its controls. The biplane he produced, marking as it did a step forward in construction, is a machine that needs description. The general appearance of the craft is indicated by Fig. 46, while an illustration of this type of machine in flight will be found on Plate VII. A feature of the Voisin that Farman discarded was the vertical panel fitted between the main-planes to give sideway stability. An objection to these planes was that they added to the weight of the machine and checked its speed, tending also to drive it from its course should there be a side wind. But in taking away such fixed balancing-planes, Farman had to substitute another device; and what he did was to work upon the same theory as the Wrights had done, and obtain a similar result in a different way. They, it will be remembered, had warped the rear portions of their main-planes. Farman kept his planes rigid, but fitted to their rear extremities four narrow, hinged planes, or flaps, which could be moved up and down and were called ailerons. Their effect was the same as with the Wright wing-warp. When a gust tilted the machine, the pilot drew down the ailerons upon the side that was inclined downward; whereupon the air-pressure, acting upon the drawn-down surfaces, restored the machine to an even keel. A. Elevating-plane; B.B. Main-planes; C. Pilot’s seat; D. Motor and propeller; E. Petrol tank; F.F. Hinged balancing-planes, or ailerons; G.G. Tail-planes; H.H. Twin vertical rudders; I. Landing wheels and skid - Room to pass
It is also important to know, if you have to go through or along somewhere close with your car, what width you need. That can become such a certainty for you that it will look like virtuosity to the uninitiated. It's a matter of routine, of course, but it can be extremely practiced. It must be started with calculating the extreme points of the fenders. Later on, even this aid is often redundant. The best way to learn this is to place two blocks of wood on the ground, or to drive two posts, which are measured just the width of the wagon apart. Riding on that is the means of learning to estimate a narrow passage. Is the width wide enough to pass, but what When measured tight, keep flat on the side of the traffic obstruction, which is on your and steering wheel side. After all, here you can see exactly how close you can get without the risk of a collision. The other side will then be free of itself. [Translated online from the Dutch ] - Rear elevation of Pioneer
Rear elevation of Pioneer and detail of valve shifter; valve face and valve. (Drawing by J. H. White.) - An aeroplane is a necessity in times of peace
An aeroplane is a necessity in times of peace - The Voisin Biplane - top view
The Voisin Biplane - top view - The Result of Feather-Edging
- The Antoinette Monoplane - top view
showing the spread of the planes and tail, and the delicate taper of the long, canoe-shaped body. - A Stage Coach of the Eighteenth Century
A Stage Coach of the Eighteenth Century - The Voisin Biplane
At the beginning of 1909 there were two types of successful aeroplane—the Wright and the Voisin. Bleriot had flown with his monoplane and flown well; but he was still in the process of evolving a practical machine, and several other inventors were in a similar stage. It was the Wright and the Voisin which had proved their worth; and the Wright, as has been said, was the better of the two. Of the Voisin, as flown in 1909, a reproduction is given in the figure. It was a heavier aeroplane than the Wrights’, owing largely to the weight of its alighting gear (250 lbs.) and of its big balancing tail (more than 100 lbs.); hence the necessity for using a 50-h.p. motor, which drove a two-bladed metal propeller at the rate of 1200 revolutions a minute. The Voisin brothers, and other French makers, did not approve of the two-propeller system of the Wrights: they preferred one screw, revolving at high speed. But there was no doubt—at any rate in this stage of aviation—that the Wright method was more efficient than that of the Frenchmen. It was calculated, indeed, that the Wright biplane, when actually in the air, could be driven at an expenditure of only 15 h.p.; whereas the Voisin, even with its 50-h.p. motor running at full speed, had only just enough power to fly. A. Elevating plane B. Pilot’s seat C.C. Main-planes D. Engine and propeller E. Landing chassis F. Balancing tail G. Rudder. - The Birmingham Mail near Aylesbury
- The Holyhead and Chester Mails
- The Curtiss Biplane
Of famous aeroplanes at Rheims, five types stood out by themselves—the Farman, the Voisin, the Wright, the Bleriot, and the Antoinette, all of which have been described. But there was one other, which few people had heard of before it appeared here. This was the Curtiss biplane, built by an American named Glenn H. Curtiss, and engined with a motor which also bore his name. Curtiss had experimented with many power-driven machines—motor-cycles, motor-cars, airships, and aeroplanes—and had won a prize in America with a small, light biplane, and it was a craft of this type—as seen in the figure —that he brought with him to Rheims, his idea being to compete for the speed prize. The machine had a front elevator and tail-planes, according to the practice in biplane construction; but an innovation was the setting of the ailerons midway between the main-planes—a position that will be noted in the sketch; another novelty was the way these ailerons operated. At the pilot’s back, as he sat in his driving seat, was an upright rod with two shoulder-pieces—by means of which, should he shift his body, he could swing the rod from side to side. Wires ran from the rod to the ailerons; and if the pilot leaned over, say, to the right, he drew down the ailerons on the left side of the machine. The merit of such a control was that it was instinctive; that is to say, should the biplane tip down on one side, it was natural for the pilot to lean away from the plane-ends that were sinking; and he operated the ailerons automatically, as he did this, and so brought the machine level again. A. Elevating-planes B. Pilot’s seat and control-wheel C.C. Main-planes D. Ailerons E. Motor and propeller F. Tail-plane and rudder. - The Mail Coach
- The Mail's Meeting
- The Bleriot Monoplane - top view
The Bleriot Monoplane - top view showing its bird-like shape and the position of the pilot. - Duke of Beauforts's Drag
Duke of Beauforts's Drag - The Stage Coach
- A Steam Street Railway Motor
While in Paris, President Yerkes, of the North Chicago Street Railway Company, purchased a noiseless steam motor, the results in experimenting with which will be watched with great interest. The accompanying engraving, for which we are indebted to the Street Railway Review, gives a very accurate idea of the general external appearance. The car is all steel throughout, except windows, doors, and ceiling. It is 12 ft. long, 8 ft. wide, and 9 ft. high, and weighs about seven tons. The engines, which have 25 horsepower and are of the double cylinder pattern, are below the floor and connected directly to the wheels. The wheels are four in number and 31 in. in diameter. The internal appearance and general arrangement of machinery, etc., is about that of the ordinary steam dummy. It will run in either direction, and the exhaust steam is run through a series of mufflers which suppress the sound, condense the steam and return the water to the boiler, which occupies the center of the car. The motor was built in Ghent, Belgium, and cost about $5,000, custom house duties amounting to about $2,000 more. - Bull and Mouth Road
- The Vickers
Already, anticipating war in the air, a fighting aeroplane has been evolved; and a machine of this type is shown in Figure. The body, in which pilot and gunner sit, is armoured lightly with plates which will resist the penetration of a bullet. Such armouring was found necessary after the use of aeroplanes in Tripoli and the Balkans. When flying unavoidably low in these campaigns, and when fired at from the ground, the wooden bodies of machines were pierced by shot, and in several instances their occupants wounded. A fighting aeroplane A. Machine-gun projecting from opening in bow B. Gunner’s position C. Pilot’s seat D.D. Side windows for observation E. Engine and propeller. - Wagon and Boat, from a mummy bandage
A singular instance of the wagon and funeral-boat in combination has been found on the bandage of a mummy, now preserved in the collection of S. d'Athanasi. It is supposed by some modern authors that Herodotus, in speaking of the religious ceremonies in honor of Mars, as performed in the city of Pampremis, refers to this vehicle. Among other things, he tells us that the priests placed an image in a wooden temple, gilded all over, which they carried to a sacred dwelling; "then the few who were left about the image draw a four-wheeled carriage containing the temple and the image." - Cars and Trams
Firstly, in the bends. Great tram cars, especially on narrow track, there are the annoying habit, not far off the path of the rails to swing, including the cars of the Amsterdam-Haarlem-Zandvoort-line, the ESM Guard is in such a bend on one approaching tram, or does one want passing in the bend, a car runs the risk of being crushed or at least damaged between the rails and the curb, by the swinging front or rear upper part of the car. [Translated online from the Dutch ] - Egyptian Sledge-Hearse
In one instance, as in the figure, taken from a tomb in Thebes, — an attendant is shown, pouring some kind of a liquid from a jar upon the ground, over which the sledge is drawn, to facilitate its progress. Examples of this nature are frequently seen in Egyptian bass-reliefs, depicting the removal of heavy loads. On this sledge-hearse the mummy-case, enclosing the corpse, is distinctly observed. With characteristic tenderness, two females steady the mummy as it moves along over the rough surface of the ground; the priest, meanwhile, mounted in front, scroll in hand, recites a panegyric, or perhaps delivers a funeral oration in honor of the dead. - An Egyptian Funeral Cortege
It need not be inferred from what we have written that all bodies were hidden away in the tomb. On the contrary, many were consumed on the funeral pile, some were buried in the earth, while others again, after they had come from the embalmer's shop, were kept in the house for years, until finally they were deposited in the catacombs. The mourning for a good king lasted the space of seventy days, during which the people sang hymns commemorating his virtues, reading their garments, and covering their heads with mud and dust, some three hundred persons of both sexes coming together twice each day to publicly sing a funeral dirge, the entire nation abstaining from meat and other dainties during the whole time. On the last day of mourning, or in some instances many months afterward, the time for sepulture arrived. Supposing that an embalmed king is to be laid away, perhaps in a tomb on which a lifetime of preparation has been bestowed, the body is now brought out from the closet, where it has been carefully stored since the funeral ceremonies were performed, and given to the undertaker, who comes with a sledge-hearse, as shown in the engraving. The several figures are thus arranged: in the center appear the sacred cows, decked with elegant blankets and ornamental head and neck gear, which last (of a peculiar pattern) is found attached to the heads of all female animals, in Egyptian bass-reliefs, drag-ropes in this case being fastened to the horns, evidently " more for ornament than use," two attendants furnishing the motive-power, while the third acts as conductor. In the foreground are four more representatives of the genus homo. First, we notice the priest, as indicated by the peculiarity of his dress. He appears in the act of anointing the dead body with sacred oil, or some other liquid, from a vessel of peculiar shape. Just in front of the priest, squatting near the earth, we find a mercenary mourner, her hair disheveled, her breasts exposed, and her hands fixed in the position most expressive of grief, no doubt crying as sincerely as in hired mourning it has ever been done. Around the third figure centers the greatest interest, since it represents the dead dressed in cerements for the tomb, to which the body is now about to be carried. The fourth, supporting the corpse in a leaning position, represents an attendant, who, in all probability, officiates both as priest and undertaker. - Elegant Sledge-Hearse
A very showy affair is found in the next illustra-tion, rivaling the mourning equipages of modern times. Among other figures appear emblems of stability and security on the side panels. In this instance the undertaker removed a portion of the paneling so as to expose the head of the mummy-case. It would seem from this, that the modern practice of showing a coffin through a glass side is of great antiquity. Indeed, we seldom find anything new that has not an antiquarian origin, thus verifying the words of the wise man, "There is no new thing under the sun." - The Cody Biplane
Another ardent worker in England, and one destined to become famous, was Mr. S. F. Cody. After developing a system of man-lifting kites which the British War Office acquired, he joined the military aircraft factory that had been established at Farnborough. Here, after tests with dirigible balloons, he began the construction of experimental biplanes—all machines of large size. Early in 1909 he made brief flights—the longest being one of about 250 yards. Then, after alterations to his machine, he managed in July to fly a distance of 4 miles. This he increased afterwards to 8 miles; and then on 1st September flew for 1 hour 3 minutes, rising to a height of 300 feet. Cody’s biplane was a very large machine, having 1000 square feet of lifting surface—twice that of the Farman or Voisin. Driving it was an 80-h.p. engine, which operated two propellers on the system used by the Wrights. With its pilot on board the machine weighed 2170 lbs. A. Elevating-planes and vertical-plane B. Pilot’s control lever C.C. Main-planes D. Motor E. Propellers F. Rudder G. Landing gear H. Rear skid. - The Devonport Mail near Amsbury going post through a drift of snow
- The Cody Biplane from above
showing the large size of the elevators, the position of the pilot, and the placing of the propellers. - Telegraph and Railroad
Telegraph and Railroad - First flight engine, 1903, assembly
First flight engine, 1903, assembly - Laplander on Snow-runners
They have caps on their heads, and fishermen and herders may be distinguished by the style of these. Fishermen’s caps are pointed, while those of herders are square. In going out over the snow in winter, Lapps have long, narrow runners of wood fastened to their feet, and carry a pole in their hand. These runners are five feet or more in length, and only a few inches wide, and on them—aided by their poles—the Lapps glide along finely over the hard snow. - Overtaking a tram
When overtaking a tram, also pay attention to the possibility that someone will jump in front of or from the tram. Giving a good signal and leaving as much road width as possible between the tram and your car is required. To catch up with a steam tram that hurls its plume over the road, and you it obstructs the view, it is advisable to wait until the wind chases away the steam. For the distance required to overtake a fast-moving vehicle such as a tram is too long, that the chance would not become too great that, in time, it would take to catch up with the plume of steam and drive through it. , in the meantime, a road obstruction would arise from the other side, which you would not have been able to see approaching. If you come across such a vehicle, moderate your speed so that you can stop vehicles suddenly emerging from that plume of steam. Give a strong signaland if necessary, stop the car on the right side of the road, until the tram has passed. Because then you have the most certainty, because then only a vehicle moving faster or as fast as the tram can cause danger. And this danger can be averted by giving a signal and keeping the right side of the road well. [Translated online from the Dutch ] - London cabriolet
On December 23, 1834, Joseph Aloysius Hansom, an architect, took out a patent, No. 6733, for "a vehicle for conveying loads, etc.," and from that time to this his name has been inseparably connected in England with cabs. Not that his cab was like the present "hansom," which is a product of much evolution. There was no back seat for the driver, and its "safety" consisted in its cranked axle. He sold his rights to a company for £10,000, but never got a penny piece of it. The only money he ever got out of it was £300, which, when the company had got into a muddle, was paid him to take temporary management and put things straight again. - 4-Cylinder vertical engine assembly
4-Cylinder vertical engine assembly - An Experimental Airship
...it was followed in due course by the use of small steam engines and electric motors, which were made to turn propellers such as are used in aeroplanes. For such experimental craft, the rounded form of gas-container was abandoned and a cigar-shaped envelope adopted, pointed at both ends, which could be more easily driven through the air. An airship of a crude and early type is seen here. It was built by an experimenter named Gifford, and in 1852 it flew at the rate of seven miles an hour. A. Gas-containing envelope; B. Car suspended below envelope, which carried the aeronaut and a 3-horse-power steam engine; C. Two-bladed propeller driven by the engine; D. Rudder (in the form of a sail) by which the machine could be steered from side to side. - Pioneer Locomotive
“Pioneer” locomotive, (1) Safety valve, (2) spring balance, (3) steam jet (4) dry pipe (5) throttle lever (6) throttle (7) crown bar (8) front tube sheet (9) check valve (10) top rail (11) rear-boiler bracket (12) pedestal (13) rocker bearing (14) damper (15) grate (16) bottom rail (17) pump heater valve (18) cylinder lubricator (19) reversing lever (20) brake shoe (21) mud ring (22) blowoff cock (23) ashpan (Drawing by J. H. White.) - First flight engine, 1903 rear view
First flight engine, 1903 rear view - Caravan preparing to start
The Turkomans live in large, round, wall tents: the light framework of poles is covered with great pieces of felt. This felt is beaten by the women 63from sheep’s wool and camel’s hair. They are comfortable within. The floor is often covered with fine rugs or skins, and handsome woven stuffs are hung upon the wall or thrown over the sitting places. These fine articles are partly woven by the women and partly stolen from passing caravans—for the Turkomans are dreadful pillagers.