This slim yet dense volume remains an excellent introduction to Newtonian physics, just as when it was first published in 1877. Beginning with the basics of physical science and working his way steadily up to universal gravitation, Maxwell surveys late-19th-century physics in his clear and concise style. Matter and Motion addresses: . motion . force . the properties of the center of mass of a material system . work and energy . recapitulation . the pendulum and gravity . the equations of motion of a connected system Readers from the science historian to the high school physics student will come away from Matter and Motion with a deeper understanding of the roots of modern physics. Scottish physicist and mathematician JAMES CLERK MAXWELL (1831-1879) is considered by many to be one of the giants of theoretical physics. Albert Einstein once described Maxwell's work as "the most profound and the most fruitful that physics has experienced since the time of Newton." A devoutly religious man and a published poet as well as a renowned scientist, Maxwell's books include Theory of Heat (1870), Treatise on Electricity and Magnetism (1873), and Elementary Treatise on Electricity (1881).

Lucasian Professor of Mathematics at Cambridge and President of the Royal Society, Sir George Gabriel Stokes (1819 1904) made substantial contributions to the fields of fluid dynamics, optics, physics, and geodesy, in which numerous discoveries still bear his name. The Memoir and Scientific Correspondence of the Late Sir George Gabriel Stokes, Bart., edited by Joseph Larmor, offers rare insight into this capacious scientific mind, with letters attesting to the careful, engaged experimentation that earned him international acclaim. Volume 1 (1907) includes a memoir - culled from the reminiscences of family, friends, and colleagues - and letters, including early correspondence with Lady Stokes during the time of their engagement and early marriage. Professional correspondence covers Stokes' discoveries in the areas of spectroscopy, fluorescence, and colour vision. The result is an intimate portrait of a brilliant mathematician - both in the early stages of his career and at the height of his intellectual powers.

Lucasian Professor of Mathematics at Cambridge and President of the Royal Society, Sir George Gabriel Stokes (1819 1904) made substantial contributions to the fields of fluid dynamics, optics, physics, and geodesy, in which numerous discoveries still bear his name. The Memoir and Scientific Correspondence of the Late Sir George Gabriel Stokes, Bart., edited by Joseph Larmor, offers rare insight into this capacious scientific mind, with letters attesting to the careful, engaged experimentation that earned him international acclaim. Volume 2 (1907) includes important professional correspondence with James Clerk Maxwell, James Prescott Joule, and many others, with particular attention given to Stokes' activities with the British Meteorological Society. Many of his foundational innovations in optics are also explicated in these letters, serving in place of the authoritative volume he unfortunately never had the opportunity to complete.

Originally published in 1912, this book contains the works of renowned engineer and physicist James Thomson (1822-92), who is known for his work on the improvement of water wheels, water pumps and turbines as well as for his innovations in the analysis of regelation and studies in glaciology. A highly detailed biography is included as well as many letters of scientific importance; the book includes correspondence with Faraday, Clerk Maxwell, Andrews and H. C. Sorby, as well as his brother, renowned physicist Lord Kelvin, on subjects such as the theory of the dissipation of energy and the characteristics of natural flow in liquids. 'The scientific activity of James Thomson has left permanent marks on the history of several branches of physical science' and this book contains and captures his lifelong devotion. This book will be of significant value to anyone with an interest in the history of physics and engineering.

Joseph Larmour (1857-1942) was a theoretical physicist who made important discoveries in relation to the electron theory of matter, as espoused in his 1900 work Aether and Matter. Originally published in 1929, this is the first part of a two-volume set containing Larmour's collected papers. The papers are presented in chronological order across the volumes, enabling readers to understand their theoretical development and framing them in an accessible form for 'future historical interests'. Authorial notes and appendices are also included. This book will be of value to anyone with an interest in the word of Larmour, mathematics physics and the history of science.

Joseph Larmour (1857-1942) was a theoretical physicist who made important discoveries in relation to the electron theory of matter, as espoused in his 1900 work Aether and Matter. Originally published in 1929, this is the second part of a two-volume set containing Larmour's collected papers. The papers are presented in chronological order across the volumes, enabling readers to understand their theoretical development and framing them in an accessible form for 'future historical interests'. Authorial notes and appendices are also included. This book will be of value to anyone with an interest in the word of Larmour, mathematics physics and the history of science.

William Thomson, first Baron Kelvin (1824-1907), is best known for devising the Kelvin scale of absolute temperature and for his work on the first and second laws of thermodynamics, though throughout his 53-year career as a mathematical physicist and engineer at the University of Glasgow he investigated a wide range of scientific questions in areas ranging from geology to transatlantic telegraph cables. The extent of his work is revealed in the six volumes of his Mathematical and Physical Papers, published from 1882 until 1911, consisting of articles that appeared in scientific periodicals from 1841 onwards. Volume 4, published in 1910, includes articles from the period 1867-1906. Themes covered in this book examine issues relating to water, such as hydrodynamics, tidal theory and deep sea ship waves.

William Thomson, first Baron Kelvin (1824-1907), is best known for devising the Kelvin scale of absolute temperature and for his work on the first and second laws of thermodynamics, though throughout his 53-year career as a mathematical physicist and engineer at the University of Glasgow he investigated a wide range of scientific questions in areas ranging from geology to transatlantic telegraph cables. The extent of his work is revealed in the six volumes of his Mathematical and Physical Papers, published from 1882 until 1911, consisting of articles that appeared in scientific periodicals from 1841 onwards. Volume 5, published in 1911, includes articles from the period 1847-1908. Topics covered include thermodynamic and electrodynamic research, as well as some works on issues of geological physics such as the possible age of the sun's heat.

William Thomson, first Baron Kelvin (1824-1907), is best known for devising the Kelvin scale of absolute temperature and for his work on the first and second laws of thermodynamics, though throughout his 53-year career as a mathematical physicist and engineer at the University of Glasgow he investigated a wide range of scientific questions in areas ranging from geology to transatlantic telegraph cables. The extent of his work is revealed in the six volumes of his Mathematical and Physical Papers, published from 1882 until 1911, consisting of articles that appeared in scientific periodicals from 1841 onwards. Volume 6, published in 1911, includes articles from the period 1867-1907. The chapters in the first part of the work focus on voltaic theory and radioactivity, while later ones examine navigation and tides.

Henry Cavendish (1731 1810) was an English scientist whose published work was mostly concerned with electricity. He was elected a Fellow of the Royal Society in 1760. Cavendish was a prolific scientific investigator, performing experiments on not only electricity but also magnetism, thermometry, gases, heat potential and the chemical composition of water. Although he published some of his research, including his discovery of hydrogen, the majority of his work remained unpublished until 1879, when James Clerk Maxwell published a collection of Cavendish's electrical experiments. These papers showed that Cavendish had discovered many important electrical concepts which had since been credited to other researchers, including the concept of electric potential. First published in 1921, these volumes are a collection of Cavendish's results from his many experiments. Volume 1 is a revised edition of James Clerk Maxwell's 1879 volume Electrical Researches of Henry Cavendish, also reissued in this series.

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