- The Oxford Handbook of The History of Physics
- List of Contributors
- Introduction
- Was There a Scientific Revolution?
- Galileo’s Mechanics of Natural Motion and Projectiles
- Cartesian Physics
- Physics and the Instrument-Makers, 1550–1700
- Newton’s <i>Principia</i>
- Newton’s Optics
- Experimentation in the Physical Sciences of the Seventeenth Century
- Mathematics and the New Sciences
- The Physics of Imponderable Fluids
- Physics on Show: Entertainment, Demonstration, and Research in the Long Eighteenth Century
- Instruments and Instrument-Makers, 1700–1850
- Mechanics in the Eighteenth Century
- Laplace and the Physics of Short-Range Forces
- Electricity and Magnetism to Volta
- Optics in the Nineteenth Century
- Thermal Physics and Thermodynamics
- Engineering Energy: Constructing a New Physics for Victorian Britain
- Electromagnetism and Field Physics
- Electrodynamics from Thomson and Maxwell to Hertz
- From Workshop to Factory: The Evolution of the Instrument-Making Industry, 1850–1930
- Physics Textbooks and Textbook Physics in the Nineteenth and Twentieth Centuries
- Physics and Medicine
- Physics and Metrology
- Rethinking ‘Classical Physics’
- The Emergence of Statistical Mechanics
- Three and a Half Principles: The Origins of Modern Relativity Theory
- Quantum Physics
- The Silicon Tide: Relations between Things Epistemic and Things of Function in the Semiconductor World
- Physics and Cosmology
- Name Index
- Subject Index
Abstract and Keywords
This article focuses on developments in electricity and magnetism up to the time of Alessandro Volta. Until the late 1600s electricity as a subject reduced to what has been aptly termed the ‘amber effect’. At the beginning of the century William Gilbert broadened the class of objects that could produce the effect and at the same time introduced a fundamental distinction between it and the properties of the lodestone, or magnet. Gilbert’s Scholastic understanding of magnetism contrasts markedly with what seems to be a quasi-mechanical understanding of electricity, the latter being more congenial to the post-Scholastic way of thinking about nature. This article first provides an overview of experiments on electric objects, including the Leiden jar, before discussing Volta’s quantification of the distinction between amount of electricity and electric tension around 1780.
Keywords: electricity, magnetism, Alessandro Volta, William Gilbert, lodestone, magnet, experiments, electric objects, Leiden jar, electric tension
Doris and Henry Dreyfuss Professor of History, California Institute of Technology
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- The Oxford Handbook of The History of Physics
- List of Contributors
- Introduction
- Was There a Scientific Revolution?
- Galileo’s Mechanics of Natural Motion and Projectiles
- Cartesian Physics
- Physics and the Instrument-Makers, 1550–1700
- Newton’s <i>Principia</i>
- Newton’s Optics
- Experimentation in the Physical Sciences of the Seventeenth Century
- Mathematics and the New Sciences
- The Physics of Imponderable Fluids
- Physics on Show: Entertainment, Demonstration, and Research in the Long Eighteenth Century
- Instruments and Instrument-Makers, 1700–1850
- Mechanics in the Eighteenth Century
- Laplace and the Physics of Short-Range Forces
- Electricity and Magnetism to Volta
- Optics in the Nineteenth Century
- Thermal Physics and Thermodynamics
- Engineering Energy: Constructing a New Physics for Victorian Britain
- Electromagnetism and Field Physics
- Electrodynamics from Thomson and Maxwell to Hertz
- From Workshop to Factory: The Evolution of the Instrument-Making Industry, 1850–1930
- Physics Textbooks and Textbook Physics in the Nineteenth and Twentieth Centuries
- Physics and Medicine
- Physics and Metrology
- Rethinking ‘Classical Physics’
- The Emergence of Statistical Mechanics
- Three and a Half Principles: The Origins of Modern Relativity Theory
- Quantum Physics
- The Silicon Tide: Relations between Things Epistemic and Things of Function in the Semiconductor World
- Physics and Cosmology
- Name Index
- Subject Index
