Thorough, extremely useful treatment of classical mechanics, electromagnetic theory, and relativity, includes full explanations of function theory, vectors, matrices, dyadics, tensors, partial differential equations, and other advanced mathematical techniques. Nearly 200 problems with answers from many different fields of physics and varying widely in difficulty.
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Physical Dimensions and Fundamental Units
Mechanics and Dynamics
Waves and Vibrations
2 other sections not shown
amplitude analogous angle angular angular momentum apply assume atomic axes axis bivectors boundary calculate capacitor coefficient components Consider constant coordinate system cos2 covariant define density derivatives determine dielectric differential equation dimensional analysis dimensions direction cosines distance dyadic dyadic transformations electric charge electromagnetic electron electrostatic element energy equal expression factor flux force formula Fourier series frequency function geometry gravitational harmonics Hence indices integral introduce Konrad Knopp magnetic field magnitude mass mathematical matrix Maxwell equations medium momentum motion normal notation origin orthogonal oscillator Paperbound parallel particle perpendicular physical plane polarized pole potential Poynting vector problem quantity radiation radius represents respect result rotation scalar sin2 solution space sphere spherical substitute surface symmetry temperature tensor theorem theory tion transformation unit vectors vanish variable vector potential velocity vibrating volume wave equation write zero