Eight Lectures on Theoretical PhysicsIn 1909 the great German physicist and Nobel Prize winner Max Planck (1858–1947) delivered a series of eight lectures at Columbia University giving a fascinating overview of the new state of physics, which he had played a crucial role in bringing about. The first, third, fifth, and sixth lectures present his account of the revolutionary developments occasioned when he first applied the quantum hypothesis to blackbody radiation. The reader is given an invaluable opportunity to witness Planck's thought processes both on the level of philosophical principles as well as their application to physical processes on the microscopic and macroscopic scales. In the second and fourth lectures Planck shows how the new ideas of statistical mechanics transformed the understanding of chemical physics. The seventh lecture discusses the principle of least action, while the final one gives an account of the theory of special relativity, of which Planck had been an early champion. These lectures are especially important since they reflect Planck's reconsiderations and rethinking of his original discovery of quantum theory. A new Introduction by Peter Pesic places this book in historical perspective among Planck's works and those of his contemporaries. Now available in this inexpensive edition, it will be of particular interest to students of modern physics and of the philosophy and history of science. |
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accordance with Clausius action principle Black-Body Theory classifying all physical Clausius actually found Conduction of heat conservation of energy consider those bodies considerations have sufficed cyclical process demands special mathematical distinction between reversible domain of irreversible dose of anthropomorphism Einstein electrodynamics entropy brings erence of nature expresses the pref final state nature found this quantity friction or conduction heat conduction heat given heat reservoir ible processes increase of entropy irreversible processes law of thermodynamics least action lecture of tomorrow less degree friction magnitude shall serve Max Planck mechanical nature certain changes nature possesses number of practical Paul Ehrenfest peculiarity of increasing perpetual motion physicists physics a wholly principle of least Principle of Relativity process would furnish quantity and called quantity of heat Quantum Theory reference reversible and irreversible Reversible processes constitute second law special mathematical treatment system of bodies system of physics temperature theoretical physics unidirectional course versible process warmer body