This book provides an introductory yet comprehensive account of James Clerk Maxwell's (1831-79) physics and world view. The argument is structured by a focus on the fundamental themes that shaped Maxwell's science: analogy and geometry, models and mechanical explanation, statistical representation and the limitations of dynamical reasoning, and the relation between physical theory and its mathematical description. This approach, which considers his physics as a whole, bridges the disjunction between Maxwell's greatest contributions: the concept of the electromagnetic field and the kinetic theory of gases. Maxwell's work and ideas are viewed historically in terms of his indebtedness to scientific and cultural traditions, of Edinburgh experimental physics, and of Cambridge mathematics and philosophy of science, which nurtured his career. Peter M. Harman is Professor of the History of Science at Lancaster University. He has published primarily on the history of physics and natural philosophy in the 18th and 19th centuries, the period from Newton to Maxwell. His previous books include Energy, Force, and Matter (Cambridge, 1982), The Investigation of Difficult Things (Cambridge, 1992), After Newton: Essays on Natural Philosophy (Variorum, 1993), The Scientific Letters and Papers of James Clerk Maxwell, volume 1 (Cambridge, 1990), volume 2 (Cambridge, 1995).

The final volume of James Clerk Maxwell's correspondence and manuscript papers covers the years 1874-1879, during Maxwell's Cambridge Professorship, his directing of the Cavendish Laboratory, and his work as writer and editor. His letters show his response to innovations in physical theory--by Boltzmann, Gibbs, Lorentz, and van der Waals--and further explorations in statistical physics and the kinetic theory of gases. His letters reflect his influence on the younger generation of physicists whose outlook was shaped by "Maxwellian physics". This edition is annotated with a full historical commentary.

This book provides an introductory yet comprehensive account of James Clerk Maxwell's (1831-79) physics and world view. The argument is structured by a focus on the fundamental themes that shaped Maxwell's science: analogy and geometry, models and mechanical explanation, statistical representation and the limitations of dynamical reasoning, and the relation between physical theory and its mathematical description. This approach, which considers his physics as a whole, bridges the disjunction between Maxwell's greatest contributions: the concept of the electromagnetic field and the kinetic theory of gases. Maxwell's work and ideas are viewed historically in terms of his indebtedness to scientific and cultural traditions, of Edinburgh experimental physics, and of Cambridge mathematics and philosophy of science, which nurtured his career. Peter M. Harman is Professor of the History of Science at Lancaster University. He has published primarily on the history of physics and natural philosophy in the 18th and 19th centuries, the period from Newton to Maxwell. His previous books include Energy, Force, and Matter (Cambridge, 1982), The Investigation of Difficult Things (Cambridge, 1992), After Newton: Essays on Natural Philosophy (Variorum, 1993), The Scientific Letters and Papers of James Clerk Maxwell, volume 1 (Cambridge, 1990), volume 2 (Cambridge, 1995).

This is a comprehensive edition of Maxwell's manuscript papers published virtually complete and largely for the first time. Maxwell's work was of central importance in establishing and developing the major themes of the physics of the nineteenth century: his theory of the electromagnetic field and the electromagnetic theory of light and his special place in the history of physics. His fecundity of imagination and the sophistication of his examination of the foundations of physics give particular interest and importance to his writings. Volume I: 1846-1862 documents Maxwell's education and early scientific work and his major period of scientific innovation - his first formulation of field theory, the electromagnetic theory of light and the statistical theory of gases. Important letters and manuscript drafts illuminate this fundamental early work and the volume includes his letters to friends and family, general essays and lectures and juvenilia.