By Richard Phillips Feynman

V. 1. in general mechanics, radiation, and warmth -- v. 2. more often than not electromagnetism and subject -- v. three. Quantum mechanics. Contents of vol. 1: Atoms in movement -- easy physics -- The relation of physics to different sciences -- Conservation of strength -- Time and distance -- likelihood -- the speculation of gravitation -- movement -- Newton's legislation of dynamics -- Conservation of momentum -- Vectors -- features of strength -- paintings and power strength -- paintings and strength strength (conclusion) -- The precise conception of relativity -- Relativistic power and momentum -- Space-time -- Rotation in dimensions -- middle of mass ; second of inertia -- Rotation in area -- The harmonic oscillator -- Algebra -- Resonance -- Transients -- Linear platforms and assessment -- the main of least time -- Geometrical optics -- Electromagnetic radiation -- Interference -- Diffraction -- The starting place of the refractive index -- Radiation damping. gentle scattering -- Polarization -- Relativistic results in radiation -- colour imaginative and prescient -- Mechanisms of seeing -- Quantum habit -- The relation of wave and particle viewpoints -- The kinetic thought of gases -- the rules of statistical mechanics -- The Brownian stream -- functions of kinetic concept -- Diffusion -- The legislation of thermodynamics -- Illustrations of thermodynamics -- Ratchet and pawl -- Sound. The wave equation -- Beats -- Modes -- Harmonics -- Waves -- Symmetry in actual legislation. Contents of vol. 2: Electromagnetism -- Differential calculus of vector fields -- Vector vital calculus -- Electrostatics -- program of Gauss' legislations -- the electrical box in a number of situations -- the electrical box in numerous situations (continued) -- Electrostatic power -- electrical energy within the surroundings -- Dielectrics -- within dielectrics -- Electrostatic analogs -- Magnetostatics -- The magnetic box in a number of events -- The vector capability -- precipitated currents -- The legislation of induction -- The Maxwell equations -- the primary of least motion -- ideas of Maxwell's equations in loose area -- options of Maxwell's equations with currents and costs -- AC circuits -- hollow space resonators -- Waveguides -- Electrodynamics in relativistic notation -- Lorentz ameliorations of the fields -- box strength and box momentum -- Electromagnetic mass -- The movement of fees in electrical and magnetic fields -- the interior geometry of crystals -- Tensors -- Refractive index of dense fabrics -- mirrored image from surfaces -- The magnetism of subject -- Paramagnetism and magnetic resonance -- Ferromagnetism -- Magnetic fabrics -- Elasticity -- Elastic fabrics -- The stream of dry water -- The stream of rainy water -- Curved area. Contents of vol. three: Quantum habit -- The relation of wave and particle viewpoints -- likelihood amplitudes -- exact debris -- Spin one -- Spin one-half -- The dependence of amplitudes on time -- The Hamiltonian matrix -- The ammonia maser -- different two-state structures -- extra two-state platforms -- The hyperfine splitting in hydrogen -- Propagation in a crystal lattice -- Semiconductors -- The self sufficient particle approximation -- The dependence of amplitudes on place -- Symmetry and conservation legislation -- Angular momentum -- The hydrogen atom and the periodic desk -- Operators -- The Schrödinger equation in a classical context : a seminar on superconductivity -- Feynman's epilogue

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**Extra resources for Feynman Lectures on Physics: Mainly Electromagnetism and Matter**

**Sample text**

C. 10. 0 J! 5. 5. 2. 11. 62]. 62]. 10. 11 occur only for the small intracluster (Rh,Ru)(Rh,Ru) distances. 62]. 12. 13. Superconducting transition tem- .. 43-45] have shown that the electronic states at the Fermi level in the CeCo 4B4-type MRh4B4 compounds do contain a significant contribution deriving from the boron atoms, consistent with this suggestion. 65]. The Tc data were analyzed as outlined in the last section. 12 is a plot of Tc versus the deGennes factor (dGF). 5, a good fit of the AG theory to the data was obtained for RE = Ho to Lu (solid curve in Fig.

These materials might, therefore, be expected to exhibit physical properties typical of sp-element superconductors. 105,10B, 112,113,117]. 11B]. The lattice parameters of phases I, II and III are simply related: IZ a I ~ alII ~ all ~ cII /2; it is therefore likely that the phase II and phase III structures, not yet reported in detail, have similar features which in turn are similar to those of phase I. 13. 105,108,112,113,117-120]. Re-entrant superconductivity occurs in the phase II compound ErRh 1.

4. 46] suggested a similar value of Tco for the nonmagnetic hypothetical compound LaRh 4B4 . 49], the exchange coupling does not appear to be any stronger in this compound than in the heavy RERh4B4 members. 1b). 36,41,51-53]. 50,51]. 7. The factors contributing to these incipient instabilities are not yet understood, but these may also be important to the superconducting and magnetic interactions in the MRh4B4 compounds at zero pressure. 54]. b) Body-Gentered-TetragonaZ LuRu 4B4 Structure Two high temperature or metastable modifications of the CeC0 4B4-type MRh4B4 compounds have been found to exist.