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- Studies in Expression
Making it a jack pot. - Studies in Expression
Reading the play. - Seventh Inning - Everybody up
- Sarah, what is that I smell
Skimpy Mistress (scenting unaccustomed delights): Sarah, what is that I smell? Undernourished Maid of all Work: I think it must come in from next door. - Present plight of the European Debutante
- Out of Work
- Mobilizing for the summer campaign
- Our uncharted coast
Very dangerous. - Meeting her sister's city friends
- Looking over his latest investments
- Leap Year
He: You never compliment me any more on my appearance. She: Oh, charming! Charming! Charming! - Keeping Neutral
- Ladies and Gentlemen
- It’s perfectly awful the way you continue to flirt with your old sweethearts
He: It’s perfectly awful the way you continue to flirt with your old sweethearts. I don’t believe you love me any more. And yet, before we were married, you told me I was a man of a thousand. She: So you were, my dear, so you were. But I can’t entirely forget the other nine hundred and ninety-nine. - In the Clouds
- I had a poet on one side and a millionaire on the other
“I had a poet on one side and a millionaire on the other.” “What did you talk about?” “I talked to the poet about money and to the millionaire about the intellectual life.” - Household Decoration
Mantel ornaments for domestic cheer. - I don’t think married life is ever happy, anyway
“I don’t think married life is ever happy, anyway.” “Then, why don’t you divorce your husband?” “I’d rather quarrel with him than with strangers.” - Her Dance
- Have you ever written any editorials
Editor: Have you ever written any editorials? College Graduate: No, sir; but I think I might train my mind down to it. - Frederick enjoys the flower show in our village
- Everyman to his taste
- Famous Actor
Famous Actor: Oh, yes, I’m married, but I always think it’s kind o’ tough on a girl that marries one of us travelin’ men. “Still, it might be worse. I suppose you’re away from home most of the time.” - Even the fish have feelings
- Don’t you get awful tired of doin’ what you’re told
“Between me an’ you, Uncle Jasper, don’t you get awful tired of doin’ what you’re told? Don’t be scared to answer. I won’t give you away to Aunt Jane.” - Do you think you will be able to keep within your allowance this month
Husband: Do you think you will be able to keep within your allowance this month? “I’m afraid so.” - Christmas Eve Visitors
- Do women propose
Mr. Wooden always wanted a tall, serious wife, while his friend Chubb intended to marry a cheery little woman. - Can you come to the jeweler’s with me to-morrow, dearest
“Can you come to the jeweler’s with me to-morrow, dearest? I’d like you to choose the ring yourself.” “In that case perhaps you’d better save up a little longer, darling.” - Botany in the Bowery
“Where did you get those flowers, little girl? Off a tree?” “No, sir.” “Off a bush?” “No, sir.” “Where?” “Off a lady.” - Arthur says when he is at your house he acts just like one of the family
“Arthur says when he is at your house he acts just like one of the family.” “Yes, he seems to be just as much afraid of my wife as I am.” - John Jay
John Jay - Abraham Lincoln
Abraham Lincoln - The Monitor, the famous little ship that revolutionized warship design
The upper figure is a broadside view, the lower one a transverse section amidships. The upper portion of the hull was very like a raft, and was heavily armoured all over, as was the turret and the little pilot-box forward. - Plaid and figured material for slender figures
- Lingerie for the graduation dress
- Simple designs for taffeta street dresses
- Appropriate School Dresses
- Jumper dresses for the very young high school girl
- Good lines for stout figures
- Envelope and knickerbocker chemise
- (No. b 828) Organdy Graduation Dress (No. b 826)
- (No. B 824) Organdy Graduation Dress (No. B 833)
- (No. B 820) Organdy Graduation Dress (No. B 822)
- Euclid Avenue, Cleveland, Ohio
The Opera House, a new and handsome building, is on Euclid avenue. There are, besides, an Academy of Music and the Globe Theatre and several minor theatres. The business portion of Euclid avenue extends from the Park to Erie street, beyond which it is lined with handsome residences, elegant cottages and superb villas, the grounds around each being more and more extensive as it approaches the country. It is one of the finest avenues in the world, and is not less than ten miles in length, embracing during its course several suburbs which a generation since were remote from the city, and are now considerably surprised to find themselves brought so near it. Euclid avenue crosses the other streets diagonally, and was evidently one of the original roads leading into the city before it attained its present dimensions. The majority of the streets are parallel with the lake front, which pursues a course from the northeast to the southwest. But Euclid avenue runs directly eastward for about three miles, to Doane's Corners, one of the historic spots in the neighborhood of Cleveland, and then turns to the northeast, following nearly parallel to the course of the lake. Prospect street runs parallel to Euclid avenue, and is only second to it in the beauty and elegance of its residences. St. Clair street is also a favorite suburban avenue, extending parallel to the lake, a little distance from it, far out into the country, and containing many handsome residences. - Erection of a Cantilever
The new bridge at Poughkeepsie has three of these cantilevers, connected by two fixed spans, as shown in the illustration. The fixed spans have horizontal lower chords, and really extend beyond each pier and up the inclined portions, to where the bottom chord of the cantilever is horizontal. At these points the junctions between the spans are made, and arranged in such a way, by means of movable links, that expansion and contraction due to changes of temperature can take place. The fixed spans are 525 feet long. Their upper chord, where the tracks are placed, is 212 feet above water. These spans required stagings to build them upon. These stagings were 220 feet above water, and rested on piles, driven through 60 feet of water and 60 feet of mud, making the whole height of the temporary staging 332 feet, or within 30 feet of the height of Trinity Church steeple, in New York. The[35] time occupied in building one of these stagings and then erecting the steel-work upon it was about four months. The cantilever spans were erected without any stagings at all below, and entirely from the two overhead travelling scaffolds, shown in the engraving. These scaffolds were moved out daily from the place of beginning over the piers, until they met in the centre. The workmen hoisted up the different pieces of steel from a barge in the river below and put them into place, using suspended planks to walk upon. The time saved by this method was so great that one of these spans of 548 feet long was erected in less than four weeks, or one-seventh of the time which would have been required if stagings had been used. - View of Thomas Pope's Proposed Cantilever (1810)
The most notable invention of latter days in bridge construction is that of the cantilever bridge, which is a system devised to dispense with staging, or false works, where from the great depth, or the swift current, of the river, this would be difficult, or, as in the case of the Niagara River, impossible to make. The first design of which we have any record was that of a bridge planned by Thomas Pope, a ship carpenter of New York, who, in 1810, published a book giving his designs for an arched bridge of timber across the North River at Castle Point, of 2,400 feet span. Mr. Pope called this an arch, but his description clearly shows it to have been what we now call a cantilever. As was the fashion of the day, he indulged in a poetical description: "Like half a Rainbow rising on yon shore, While its twin partner spans the semi o'er, And makes a perfect whole that need not part Till time has furnish'd us a nobler art." - Steam Excavator
On the prairies of the West the road-bed is thrown up from ditches on each side, either by men with wheelbarrows and carts, or by means of a ditching-machine, which can move 3,000 yards of earth daily. In this case the track follows immediately after the embankment, and the men live in cars fitted up as boarding-shanties, and moved forward as fast as required. - Snow-sheds, Selkirk Mountains, Canadian Pacific
In all countries, old and new, mountainous and level, the rule should be to keep the level of track well above the surface of the ground, in order to insure good drainage and freedom from snow-drifts. The question of avoidance of obstruction by snow is a very serious one upon the Rocky Mountain lines, and they could not be worked without the device of snow-sheds—another purely American invention. There are said to be six miles of staunchly built snow-sheds on the Canadian Pacific and sixty miles on the Central Pacific Railway. The quantity of snow falling is enormous, sometimes amounting to 250,000 cubic yards, weighing over 100,000 tons, in one slide. It is stated by the engineers of the Canadian Pacific, that the force of the air set in motion by these avalanches has mown down large trees, not struck by the snow itself. Their trunks, from one to two feet in diameter, remain, split as if struck by lightning. - A Switchback
Another American invention is the switchback. By this plan the length of line required to ease the gradient is obtained by running backward and forward in a zigzag course, instead of going straight up the mountain. As a full stop has to be made at the end of every piece of line, there is no danger of the train running away from its brakes. This device was first used among the hills of Pennsylvania over forty years ago, to lower coal cars down into the Nesquehoning Valley. It was afterwards used on the Callao, Lima, and Oroya Railroad in Peru, by American engineers, with extraordinary daring and skill. It was employed to carry the temporary tracks of the Cascade Division of the Northern Pacific Railroad over the "Stampede" Pass, with grades of 297 feet per mile, while a tunnel 9,850 feet long was being driven through the mountains. - A Sharp Curve—Manhattan Elevated Railway, 110th Street, New York
Equally valuable improvements were made in cars, both for passengers and freight. Instead of the four-wheeled English car, which on a rough track dances along on three wheels, we owe to Ross Winans, of Baltimore, the application of a pair of four-wheeled swivelling trucks, one under each end of the car, thus enabling it to accommodate itself to the inequalities of a rough track and to follow its locomotive around the sharpest curves. There are, on our main lines, curves of less than 300 feet radius, while, on the Manhattan Elevated, the largest passenger traffic in the world is conducted around curves of less than 100 feet radius. There are few curves of less than 1,000 feet radius on European railways. - Locomotive of To-day
- Rail Making
- The Last Span - ready to join
- Pioneer Wagons
About 1820, the State of Illinois was being rapidly settled by people from the eastern states. Prior to this time, very few white settlements had been made in the state. These early pioneers, drawn from the population of the eastern states, were composed of almost all nationalities. They pushed their way across the mountains of Pennsylvania and Virginia in crude wagons, drawn by oxen, bringing with them their household goods and a few milk cows. - Early Settler Homestead
About 1820, the State of Illinois was being rapidly settled by people from the eastern states. Prior to this time, very few white settlements had been made in the state. These early pioneers, drawn from the population of the eastern states, were composed of almost all nationalities. They pushed their way across the mountains of Pennsylvania and Virginia in crude wagons, drawn by oxen, bringing with them their household goods and a few milk cows. They came into Illinois, built new homes, and laid out new fields on the broad, unsettled prairies. - Cattle
In April, 1869, a charter was granted by the state of Illinois to the East St. Louis Stock Yards Company. This company was authorized to issue stock to an amount not to exceed $200,000. The original charter of the company, which later operated the National Stock Yards, fixed the capital stock thereof at $1,000,000, which was, subsequently, raised, by a vote of the stock holders, to an amount of $250,000, to meet the requirements of the rapidly growing business. When the National Stock Yards were completed, they were more convenient than were any others of their kind in the country. - The Summer that the rain came not
The great drouths caused the price of corn to fluctuate but the aggregate corn yield kept on increasing with increased acreage and usually the year following a drouth was one of superabundance of corn. Such was the year of 1895 following the drouth of 1894. The proportion of cattle per thousand population steadily increased. Meanwhile our cattle markets became centralized and were always full to overflowing. Everybody wondered where the cattle came from. - Diagram of the Curtiss Flying Boat no. 2
A "No. 2 flying boat," just built by Mr. Curtiss, and successfully tested on Lake Keuka, Hammondsport, in July, 1912, is the "last word" in aviation so far. An illustration in this book, made from photographs taken in mid-July, 1912, shows fully the bullet-shape of the "flying fish." It is a real boat, built with a fish-shaped body containing two comfortable seats for the pilot and passenger or observer, either of whom can operate the machine by a system of dual control, making it also available for teaching the art of flying. All the controls are fastened to the rear of the boat's hull, which makes them very rigid and strong, while the boat itself, made in stream-line form, offers the least possible resistance to the air, even less than that offered by the landing gear upon a standard land machine. Above the boat are mounted the wings and aeroplane surface. In the centre of this standard biplane construction is situated the eighty horse-power motor with its propeller in the rear, thus returning to the original practice, as in the standard Curtiss machines, of having a single propeller attached direct to the motor, thus doing away with all chains and transmission gearing which might give trouble, and differing from the earlier model flying boat built in San Diego, California, last winter (1911-12), which was equipped with "tractor" propellors propellers in front driven by chains. The new flying boat is twenty-six feet long and three feet wide. The planes are five and a half feet deep and thirty feet wide. It runs on the water at a speed of fifty miles an hour, and is driven by an eighty horse-power Curtiss motor. At a greater speed than this it cannot be kept on the water, but rises in the air and flies at from fifty to sixty miles per hour. - Scientific American Trophy
Following the success of the "White Wing" we started in to build another machine, embodying all that we had learned from our experience with the two previous ones. Following our custom of giving each machine a name to distinguish it from the preceding one, we called this third aeroplane the "June Bug." The name was aptly chosen, for it was a success from the very beginning. Indeed, it flew so well that we soon decided it was good enough to win the trophy which had been offered by The Scientific American for the first public flight of one kilometer, or five-eights of a mile, straightaway. This trophy, by the way, was the first to be offered in this country for an aeroplane flight, and the conditions specified that it should become the property of the person winning it three years in succession. The "June Bug" was given a thorough try-out before we made arrangements to fly for the trophy, and we were confident it would fulfill the requirements.