Photography, Still - science and art of making permanent images on light-sensitive materials. See also
photographic processing;
motion picture photography;
motion pictures. Early Developments The
camera itself is based on optical principles known at least since the age of Aristotle; indeed, a filmless version was in use in the mid-1500s as a sketching device for artists. Called the camera obscura (Lat.,=dark chamber), it consisted of a small, lightproof box with a pinhole or lens on one side and a translucent screen on the opposite side. This screen registered, in a manner suitable for tracing, the inverted image transmitted through the lens. The human eye was the prototype for this device, which functioned as a primitive extension of seeing. Most experiments in photographic technology were directed toward perfecting the medium as a surrogate, more sophisticated eye. The Invention of Photography The necessary first breakthrough in photography was in a different, not eye-centered area—that of making permanent photographic images. Employing data from the researches of Johann Heinrich Schulze—who, in 1727, discovered that silver nitrate darkened upon exposure to light—Thomas Wedgwood and Sir Humphry
Davy, early in the 19th cent., created what we now call photograms. These were made by placing assorted objects on paper soaked in silver nitrate and exposing them to sunlight. Those areas of the paper covered by the objects remained white; the rest blackened after exposure to the light. Davy and Wedgwood found no way of arresting the chemical action at this stage, however, and their images lasted only a short time before darkening entirely. Photography's basic principles, processes, and materials were discovered virtually simultaneously by a diverse group of individuals of different nationalities, working for the most part entirely independently of one another. The results of their experiments coalesced in the first half of the 19th cent., creating a tool for communication that was to become as powerful and significant as the printing press. Four men figure principally in the establishment of the rudiments of photographic science. The French physicist, Joseph Nicéphore
Niepce, made the first negative (on paper) in 1816 and the first known photograph (on metal; he called it a heliograph) in 1826. By the latter date he had directed his investigations away from paper surfaces and negatives (having invented, in the meantime, what is now called the photogravure process of mechanical reproduction) and toward sensitized metallic surfaces. In 1827 Niepce had also begun his association with Louis Jacques Mandé
Daguerre, a French painter who had been experimenting along parallel lines. A partnership was formed and they collaborated until Niepce's death in 1833, after which Daguerre continued their work for the next six years. In 1839 he announced the invention of a method for making a direct positive image on a silver plate—the daguerreotype. Daguerre's announcement was a source of dismay to the English scientist William Henry Fox
Talbot, who had been experimenting independently along related lines for years. Talbot had evolved a method for making a paper negative from which an infinite number of paper positives could be created. He had also worked out an effective although imperfect technique for permanently "fixing" his images. Concerned that he might lose the rights to his own invention, the calotype process, Talbot wrote to the French Academy of Sciences, asserting the priority of his own invention. He then lost no time in presenting his researches to England's Royal Society, of which he was a distinguished member. All three pioneers, Niepce, Daguerre, and Talbot, along with Sir John
Herschel—who in 1819 discovered the suitability of hyposulfite of soda, or "hypo," as a fixing agent for sensitized paper images and who is generally credited with giving the new medium its name—deserve to share the title Inventor of Photography. Each made a vital and unique contribution to the invention of the photographic process. The process developed by Daguerre and Niepce was, in a grand gesture, purchased from them by the French government and given, free of patent restrictions, to the world. Talbot patented his own process and then published a description of it, entitled The Pencil of Nature (1844–46). This book, containing 24 original prints, was the first ever illustrated with photographs. The Daguerreotype Daguerreotypy spread rapidly, except in England, where Daguerre had secretly patented his process before selling it to the French government. The legal problems attending the pursuit of photography as a profession account in part for the widespread influence of amateurs (e.g.,
Nadar, the French pioneer photographer) on the early development of the medium. The popularity of the daguerreotype is attributable to two principal factors. The first of these was the Victorian passion for novelty and for the accumulation of material objects, which found its perfect paradigm in these silvery, exquisitely detailed miniatures. The second was the greatly increasing demand from a rising middle class for qualitatively good but—compared to a painter's fee—inexpensive family portraits. The cheaper tintype eventually made such likenesses available to all. The principal shortcoming of the daguerreotype and its variants was inherent in its nature as a direct positive. Unique and unreproducible, it could not serve for the production of any image intended for wide distribution. This factor, combined with the lengthy exposure time necessitated by the process, restricted its function to
portraiture. The vast majority of surviving daguerreotypes are portraits; images of any other subject are exceedingly rare. Nevertheless, for 20 years the daguerreotype completely overshadowed the greater utility of the calotype. In the United States, where it was equally popular, the daguerreotype was promoted by John W.
Draper and Samuel F. B.
Morse. The Calotype The calotype's paper negative made possible the reproduction of photographic images. The unavoidably coarse paper base for the negative, however, eliminated the delicate detail that made the daguerreotype so appealing. This lack of precision was understood and used to advantage by the Scottish painter David Octavius
Hill and his assistant, Robert Adamson. From 1843 to 1848 they made an extensive series of calotype portraits of Scottish clergymen, intended to serve only as studies for a group portrait in oils, that stands today among the major bodies of work in the medium. Hill and Adamson composed their portraits in broad planes, juxtaposing bold masses of light and dark, creating works that are monumental in feeling despite their small size. The Collodion Process The dilemma of detail versus reproducibility was resolved in 1851 by an Englishman, Frederick Scott Archer, who introduced the collodion process. This method, also known as the "wet plate" technique, involved coating a glass plate with silver iodide in suspension, exposing it while still wet, and developing it immediately. Once fixed and dried, the glass plate was covered with a thin, flexible film containing the negative image, the definition and detail of which approached that of the daguerreotype. As this process merged the advantages of both its predecessors, it was universally adopted within a very short time. The Impact of Early Photography With the advent of the collodion process came mass production and dissemination of photographic prints. The inception of these visual documents of personal and public history engendered vast changes in people's perception of history, of time, and of themselves. The concept of privacy was greatly altered as cameras were used to record most areas of human life. The ubiquitous presence of photographic machinery eventually changed humankind's sense of what was suitable for observation. The photograph was considered incontestable proof of an event, experience, or state of being. To fulfill the mounting and incessant demand for more images, photographers spread out to every corner of the world, recording all the natural and manufactured phenomena they could find. By the last quarter of the 19th cent. most households could boast respectable photographic collections. These were in three main forms: the family album, which contained cabinet portraits and the smaller cartes-de-visite and tintypes; scrapbooks containing large prints of views from various parts of the world; and boxes of stereoscope cards, which in combination with the popular stereo viewer created an effective illusion of three-dimensionality. A number of photographers, including Timothy O'Sullivan, J. K. Hillers, and W. H. Jackson, accompanied exploratory expeditions to the new frontiers in the American West, while John Thomson returned from China and Maxime Du Camp from Egypt with records of vistas and peoples never before seen by Western eyes. Roger Fenton, who photographed the Crimean conflict, and Mathew Brady's photographic corps, who documented the American Civil War, provided graphic evidence of the hellishness of combat. Further Developments E. J. Marey, the painter Thomas
Eakins, and Eadweard
Muybridge all devised means for making stop-action photographs that demonstrated the gap between what the mind thinks it sees and what the eye actually perceives. Muybridge's major work, Animal Locomotion (1887), remains a basic source for artists and scientists alike. As accessory lenses were perfected, the camera's vision extended both telescopically and microscopically; the moon and the microorganism became accessible as photographic images. The introduction of the halftone process (see
photoengraving;
printing) in 1881 made possible the accurate reproduction of photographs in books and newspapers. In combination with new | 
