The Creators: A History of Heroes of the Imagination (99 page)

BOOK: The Creators: A History of Heroes of the Imagination
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Stieglitz’s photographs were, of course, supposed to speak for themselves. But wanting a theory, he developed a pretentious and not entirely intelligible doctrine of “equivalents.” “The fact that all true things are equal to one another is the only democracy I recognize.” “All experiences in life are one.
… My cloud photographs, my
Songs of the Sky
, are equivalents of my life experience.”

Despite this vague homogenizing philosophy, Stieglitz enjoyed and luxuriated in the distinction between painting and photography. His photographs were some of the first to be exhibited in the great art museums of Boston, New York, and Washington. And Stieglitz saw a fertile antithesis. The camera could liberate painters from the traditional need to be literal and representational. Modern painting could, would, and should be
“anti-photography
.” At the same time, photography should be itself. “My ideal,” he wrote of the exhibition of his work in 1921, “is to achieve the ability to reproduce numberless prints from each negative, prints all significantly alive, yet indistinguishably alike, and to be able to circulate them at a price not higher than that of a popular magazine or a daily paper.… I was born in Hoboken. I am an American. Photography is my passion. The search for Truth my obsession.”

The unique power of photography, Stieglitz insisted, was to register the world directly. He was interested, as Paul Strand observed, not in photographers but in photography, a way to depict the world free of Academy inhibitions. Man the creator now worked in a new limbo of machines. The photographer must respect the machine, which was his camera, and not try to make it into a brush or a pencil. “If only people would broaden their concept of the brotherhood of man, to include concern about the brotherhood of man and the machine, the world would be a great deal better.”

56
The Rise of the Skyscraper

T
HE
next creation of Western architecture was a new collaboration of man and the machine. For centuries Western architecture had been dominated by only two styles—the classical Greco-Roman legacy and the Gothic legacy of the Middle Ages. Modern times would add another, the joint product of architect and engineer, of the “poetry and prose” of the building arts, which allowed creators to conjure with upward space. It would come from the heart of America and would be more than a style—a design for a new kind of building. The Greco-Roman borrowed from temples, the
Gothic adapted from churches. The skyscraper was created for the tall office building. Excelling all others in height, it would add a new scale and dimension to man’s architectural creations. Its gesture was not to the gods, nor to God, but simply to the sky. Before the rise of the skyscraper, the American cityscape was commonly dominated by a church spire. In Lower Broadway in New York City in 1880 the tallest building was the spire of Trinity Church.

Chicago was to be the birthplace, the Athens or St.-Denis, of the architecture that took businessmen into the sky, where they could look down on the steeples of their churches. And Chicago itself was a phenomenon, in the intensity, speed, and magnitude of its growth. In 1833 the city had barely acquired the 150 population required to incorporate, which fifteen years later reached 20,000, by 1870 counted more than 300,000. In 1890 its 1.1 million made it the nation’s second city. A Chicago novelist declared it was “the only great city in the world to which all of the citizens have come for the avowed object of making money.” “The lightning city” thrived on growth and expansion, on the movements of people and what they produced.

Focus and terminus of every then-known form of transportation, at the northern end of a canal connecting the Great Lakes with the Mississippi River, Chicago commanded the greatest inland waterway system in the world, which the steamboat made more fluent than ever. From Chicago, a rail network reached the Atlantic, Gulf, and Pacific coasts. The center for gathering, processing, and distributing the produce of a burgeoning continental-agricultural nation, for a century Chicago remained the livestock and meatpacking capital of the world. In Chicago, even before the Civil War the need for quickly built, easily demounted, and readily transported buildings had produced a bizarre architectural novelty. The widely ridiculed “balloon frame house” was displacing the traditional heavy mortise and tenon frame with lightweight planks of milled lumber quickly nailed together. Some objected that such flimsy houses would be blown away by the first wind. But in this community with few skilled carpenters and no restrictive guilds a new technology won the day. The balloon frame would house millions in American cities and suburbs to come.

Meanwhile, in the nation’s largest city, New York, there was pressure to provide offices for the growing financial empires headquartered there. In the 1880s and 1890s the first tall buildings still fitted somehow into the city scene. Not until 1892 did a secular building, the 309-foot-tall Pulitzer Building, overshadow Trinity Church (284 feet). For centralized business administration, to bring businesses that dealt with one another close together, and to fit them into the congested downtown, New York builders began building tall. Elevators were necessary, but at first the public was put off by fears of
falling. The ingenious Elisha Graves Otis (1811–1861), who had been working in a bedstead factory, invented a safety device that prevented the elevator from falling if the lifting chain broke. He set up his factory in Yonkers, in 1861 patented and manufactured the steam elevator, and so made the tall building convenient. These “vertical railways” were first generally used in hotels. They were the uncelebrated essential engineering feature that made possible the modern skyline.

While adopting the new elevators New York architects still used traditional materials in the traditional way for their high buildings. What is sometimes called the first tall office building was erected (1868–70) at 120 Broadway. Though rising to a height of 130 feet, it contained only five working stories. Except for its height, there was nothing novel in its construction, which was of masonry with some brick and some wrought-iron beams in the interior. The fear of fire, which might cause the exposed metal frame to buckle and collapse, prevented the use of iron framing throughout. But new ways of fireproofing ironwork by cladding with fireproof tile as well as speedier and safer elevators encouraged more high buildings in the next five years. The Western Union Building rose to 230 feet, the Tribune Building to 260. Despite their unusual height, they still relied on masonry walls and partitions, with supporting wrought-iron beams.

Masonry, however, was ill-suited to tall buildings. The outside walls at the bottom would have to be made thicker to support the great weight of the masonry and the increasing weight of beams and floors for each added story. As a result the entrance floors to a tall masonry office building would require the lower walls of a medieval fortress. Before electric lighting, which was not practical till the 1880s, illumination was also a problem. The space allowed for windows in such structures would be more suited for shooting arrows out than for admitting sunlight, while the most valuable shop and office space near the ground would be consumed with thick masonry.

For the upreaching modern skyscraper some other kind of construction was required. New York was not to be the place. Two centuries old at the time of the Civil War, it was ancient by American standards, and had accumulated countless building regulations. Its architects, dominated by the Beaux-Arts academic tradition, imagined monuments to outshine their French or British counterparts. But Chicago was a young city bursting with new arrivals. There in 1880 the median age of architects active in designing large buildings was only thirty. More often than not they were engineers rather than architects. With few exceptions they were not infected by the Beaux-Arts tradition, and were prepared to create new structures for new needs. And the newest need was office space for expanding American enterprise in the congested city.

To these Chicago advantages an inscrutable providence added a traumatic
incentive, one of the great urban catastrophes of modern times. In America, unlike the Old World, destructive catastrophes such as earthquakes, floods, and invasions had not generally been required to provide a clean slate for innovation. But the Chicago fire of October 8–10, 1871, destroyed within two days much of the physical product of the city’s forty years. The city had been built with no thought of fire. Even the sidewalks were of resinous pine. The cause of the great Chicago fire remains unknown, but the legend of Mrs. O’Leary’s cow knocking over a lantern persists. Between nine o’clock Sunday evening, October 8, and ten-thirty the following night, three and a half square miles of the central city were burned out. Although there was a confirmed loss of only three hundred lives, eighteen thousand buildings were incinerated and one hundred thousand people were left homeless. Local moralists, comparing it with the ancient destruction of Babylon, Troy, and Rome, called it a modern apocalypse. “Very sensible men,” Frederick Law Olmsted reported from the scene, “have declared … that it was the burning of the world.” In sober fact, the catastrophic fire offered American architects an opportunity like that seized by Nero in ancient Rome.

The phoenix would become the appropriate symbol of the city, for a new Chicago arose speedily from the ashes. “Oh it was an enlivening, inspiring sight,” only five months later a visitor exclaimed, “to look out each morning, upon a brave wall of solid masonry, which one had not noticed before!… the constant stream of vehicles that went plunging through the streets, like fire engines bent on saving a city from destruction; and, indeed, their errand was of equal moment—the building up of the New, since the Old could no longer be saved!” The speed and magnitude of the catastrophe were said to be another confirmation of the city’s uniqueness. Like the settlers starting over at Plymouth Rock, they found new reason to see Chicago as the archetypal American city. Within a month, five thousand cottages were being built, and real estate prices rose above prefire levels. The stage was set for a building boom—and architectural creation—without precedent.

Chicago, the New World’s new city, had become perforce a scene for the first American urban renewal. And on what a scale! Frontier engineer-architects, at home in building iron bridges, were open to new ways. Steel-frame construction, the additional element needed for the skyscraper, was created in Chicago within a dozen years after the fire. This “cage construction” had obvious essential advantages over masonry. A steel-frame skeleton supporting a tall building would not have to be thick at the base, and so would free the valuable rentable space near the ground. A conventional eleven-story masonry building required thick bearing walls at the bottom
that would leave clear interior room widths of only sixteen feet. A steel frame would open up the interior of the building, regardless of its height, and at the same time would open the outer walls for large windows and natural light, which now could penetrate the interior.

The first building of true skyscraper design—or “cage construction”—the Home Insurance Company Building, was built in Chicago (1884–85) by William LeBaron Jenney (1832–1907). Major Jenney, father of the skyscraper, was a New Englander who, at seventeen, had sailed in one of his father’s whalers around the Horn in 1849 to join the gold rush to California. After three years at the Lawrence Scientific School studying engineering and eighteen months in Paris studying art and architecture, he served as engineer building the trans-Panama railroad, then as engineer for General Sherman in the Civil War. After the war he settled in Chicago. The assignment that made history was his commission to design for the Home Insurance Company a fire-resistant building with the greatest number of well-lighted small offices. A piece of folklore circulated by the contractor for this building helps us understand the simple virtues of the “cage” construction. One evening, it seems, when Jenney came home depressed at his inability to solve his problem, his wife happened to be reading a heavy book. Casually putting it aside, she laid it on top of a nearby birdcage. With a Eureka flash, Jenney suddenly saw that if the flimsy wire frame of the birdcage would support a heavy book, a similar metal cage might support the weight of a tall building. By creating steel-skeleton construction he opened the era of the skyscraper.

The nine-story Home Insurance Company Building, finished in 1885, proved that a steel skeleton could support a high structure. Architects had feared that in case of fire the different rates of thermal expansion between iron and masonry might buckle the metal and crack the masonry. And Jenney had planned to use heavy granite piers to bear some of the weight of the frame, which was to be cast-iron columns. Before these cast-iron columns were delivered, the Carnegie-Phipps Steel Company perfected a way of rolling steel columns. Jenney substituted these for the iron above the sixth floor, and so, finally, steel entered buildings. This was fifteen years after steel had been used in an American bridge. The lightness of steel compared with wall-bearing masonry, together with the new processes of riveting, opened up the building to sunlight and allowed grand increases in height. The greater strength of steel columns made it possible to space the columns farther apart inside the building, leaving the interior space flexible for movable partitions. Steel-skeleton construction where the enclosing walls had no load-bearing function would eventually make possible increasingly dramatic use of glass. The steel frame not only created an enormous new demand for steel. It allowed the architect’s imagination to soar upward as well as outward. Now the sky would be the limit.

This was not the first time that Americans had added a new material for the architect. The versatile James Bogardus (1800–1874), trained as a watchmaker, improved the striking parts of clocks, devised new machines for engraving, and a metal-cased pencil that was “forever pointed.” In Italy in 1840, “contemplating rich architectural designs of antiquity,” he had first conceived the idea of emulating them in modern times by the use of cast iron. His own five-story factory (1850) was said to be the first complete cast-iron building in the world. He patented his “Improvements in the Methods of Constructing Iron Houses” (1850), and made whole buildings, including the frames, floors, and supports, of cast iron. Such buildings could be erected speedily at all seasons “by the most ignorant workman,” could easily be taken to pieces and removed, making possible thinner walls, “fluted columns and Corinthian capitals, the most elaborate carvings, and the richest designs” at little cost. All of which “would greatly tend to elevate the public taste for the beautiful, and to purify and gratify one of the finest qualities of the human mind.” Bogardus’s cast-iron buildings never became popular, but his concept was prophetic. His 175-foot-high tower (1855) for the McCullough Shot and Lead Company in New York, with its octagonal cast-iron frame of true skeletal construction and nonbearing curtain walls, may have been known to Jenney.

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