Michael Faraday (1791-1867) was one of the most important men of science in nineteenth century Britain. His discoveries of electro-magnetic rotations (1821) and electro-magnetic induction (1831) laid the foundations of the modern electrical industry. His discovery of the magneto-optical effect and diamagnetism (1845) led him to formulate the field theory of electro-magnetism, which forms one of the cornerstones of modern physics. These and a whole host of other fundamental discoveries in physics and chemistry, together with his lecturing at the Royal Institution, his work for the state (including Trinity House), his religious beliefs and his lack of mathematical ability, make Faraday one of the most fascinating scientific figures ever. All these aspects of his life and work and others, such as his health, are reflected in his letters which, in this final volume, cover Faraday's life to his death in August 1867. Also published here are letters that could not be dated and letters that should have been included in volumes one to five but which had not been located when those volumes were published. In total just over 80% of the letters in this volume are previously unpublished. The dominant topic of the 1860s (covered in nearly 40% of the letters) is Faraday's involvement with the lighthouse service relating in particular to his advice to Trinity House and the Board of Trade on matters such as electric light and the controversial issue of fog signals. Also detailed is the complex process by which his various posts were transferred to John Tyndall. Similar issues existed with Faraday's gradual withdrawal from his duties at the Royal Institution, including the misguided attempt to make him President. And, of course, running through many of the letters are comments on his declining health and impending death. Major correspondents include the Astronomer Royal G.B. Airy, the Secretary of Trinity House P.H. Berthon, the Birmingham glassmaker J.T. Chance, the Assistant Secretary of the Board of Trade T.H. Farrer, the German mathematician Julius Plucker, the Cambridge trained mathematical natural philosophers James Clerk Maxwell and William Thomson, Faraday's colleagues at the Royal Institution Henry Bence Jones, John Tyndall and Benjamin Vincent, the Swiss chemist Christian Schoenbein and the astronomer James South.

The technical problems confronting different societies and periods, and the measures taken to solve them, form the concern of this annual collection of essays. It deals with the history of technical discovery and change, and explores the relationship of technology to other aspects of life - social, cultural and economic. The book shows how technological development has shaped, and been shaped by, the society in which it occurred.

The technical problems confronting different societies and periods, and the measures taken to solve them form the concern of this annual collection of essays. Volumes contain technical articles ranging widely in subject, time and region, as well as general papers on the history of technology. In addition to dealing with the history of technical discovery and change, History of Technology also explores the relations of technology to other aspects of life -- social, cultural and economic -- and shows how technological development has shaped, and been shaped by, the society in which it occurred.

The technical problems confronting different societies and periods, and the measures taken to solve them, form the concern of this annual collection of essays. The book deals with the history of technical discovery and change, and explores the relation of technology to other aspects of life. It also shows how technological development has shaped, and been shaped by, the society in which it occurred.

This is an annual collection of essays which explore how technology is related to other aspects of life - social, cultural and economic - and show how technological development has shaped, and been shaped by, the society in which it occurred. Contributions range widely in subject, period and region, and cover both technical matters and general papers on the history of technology.

The technical problems confronting different societies and periods, and the measures taken to solve them form the concern of this annual collection of essays. Volumes contain technical articles ranging widely in subject, time and region, as well as general papers on the history of technology. In addition to dealing with the history of technical discovery and change, History of Technology also explores the relations of technology to other aspects of life -- social, cultural and economic -- and shows how technological development has shaped, and been shaped by, the society in which it occurred.

For more than two hundred years the Royal Institution has been at the centre of scientific research and has also provided a cultural location for science in Britain. Within its walls some of the major scientific figures of the last two centuries - such as Humphry Davy, Michael Faraday, John Tyndall, James Dewar, Lord Rayleigh, William Henry Bragg, Henry Dale, Eric Rideal, William Lawrence Bragg and George Porter - carried out much of their research. Their discoveries include sodium, the miners' lamp, the electric dynamo, transformer and generator, the 'thermos' flask, x-ray crystallography and much else besides, all of which brought about major changes in the way we live. The success of the Royal Institution in research and in locating science within general culture led it being used as a model for other institutions, most notably by the founders of the Smithsonian Institution in Washington. Much has been written about the scientific work in the Royal Institution, but comparatively little attention has been devoted to the cultural settings which allowed the Royal Institution to become such a major site for the creation of scientific knowledge. This book seeks to rectify this gap by examining various aspects of its history through both thematic and chronological chapters.

Renaissance and Revolution is a collection of fifteen essays on some of the problems presently seen to be associated with the Scientific Revolution of the sixteenth and seventeenth centuries. The topics treated include the dissemination of Greek science, medical empiricism, natural history, the relations of scholars and craftsmen from the fifteenth to the seventeenth centuries, the so-called 'mechanical philosophy' in France and England, the work of Isaac Newton, and the difficulties encountered by Newtonianism in Italy in the early eighteenth century. Figures discussed include Leonardo Fioravanti, Jan Swammerdam, Piero della Francesca, Johannes Hevelius, Jonas Moore, Robert Boyle, Isaac Newton, Christiaan Huygens, Francesco Algarotti and Luigi Ferdinando Marsigli. There is an introduction by the editors and an afterword by A. Rupert Hall. The authorship is international, including scholars with established reputations as historians of science.

This book tells the remarkable lives of the pioneers of science - from Galileo and Newton, Faraday and Darwin, Pasteur and Marie Curie, to Einstein, Freud, Turing, and Crick and Watson. A series of seventy articles, written by an international team of distinguished scientists, historians of science and science writers, provides an unrivalled account of the lives and personalities behind the greatest scientific breakthroughs of all time. Organized thematically, starting at the 'Universe', and moving smaller through the 'Earth' and 'Molecules and Matter' to 'Inside the Atom', with the final two sections looking at 'Life' and 'Body and Mind', it covers all the major scientific disciplines, including astronomy, biology, biochemistry, chemistry, computing, ecology, geology, medicine, neurology, physics and psychology, as well as mathematics. The Scientists will intrigue budding scientists, those fascinated by the lives of great individuals, and anyone curious to know how over the centuries we came to understand the physical world around us and inside us.

Michael Faraday is one of the best known scientific figures of all time. Known as the discoverer of electro-magnetic induction, the principle behind the electric generator and transformer, he has frequently been portrayed as the 'father' of electrical engineering from whence much of his popular fame derives. This Very Short Introduction dispels the myth that Faraday was an experimental genius working alone in his basement laboratory, making fundamental discoveries that were later applied by others. Instead, it portrays Faraday as a grand theorist of the physical world profoundly influencing later physicists such as Thomson (Kelvin), Maxwell, and Einstein. Frank A.J.L. James explores Faraday's life from his origins in eighteenth-century Westmorland and Yorkshire, his religious and scientific background, to the growth of his fame in the nineteenth and twentieth centuries. As well as introducing his scientific research, he also puts Faraday in the various institutional contexts in which he lived and worked, including the Royal Institution, the Royal Society, Trinity House, and other agencies of the state. James therefore provides a commentary on the rapidly changing place of science in nineteenth-century society, especially in regards to its role in government and the growth of a professional scientific community. ABOUT THE SERIES: The Very Short Introductions series from Oxford University Press contains hundreds of titles in almost every subject area. These pocket-sized books are the perfect way to get ahead in a new subject quickly. Our expert authors combine facts, analysis, perspective, new ideas, and enthusiasm to make interesting and challenging topics highly readable.