Mathematical Methods for Physicists: A Comprehensive GuideAcademic Press, 2011. 12. 26. - 1220ÆäÀÌÁö Now in its 7th edition, Mathematical Methods for Physicists continues to provide all the mathematical methods that aspiring scientists and engineers are likely to encounter as students and beginning researchers. This bestselling text provides mathematical relations and their proofs essential to the study of physics and related fields. While retaining the key features of the 6th edition, the new edition provides a more careful balance of explanation, theory, and examples. Taking a problem-solving-skills approach to incorporating theorems with applications, the book's improved focus will help students succeed throughout their academic careers and well into their professions. Some notable enhancements include more refined and focused content in important topics, improved organization, updated notations, extensive explanations and intuitive exercise sets, a wider range of problem solutions, improvement in the placement, and a wider range of difficulty of exercises.
New to this edition:
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1 | |
83 | |
3 Vector Analysis | 123 |
4 Tensors and Differential Forms | 205 |
5 Vector Spaces | 251 |
6 Eigenvalue Problems | 299 |
7 Ordinary Differential Equations | 329 |
8 SturmLiouville Theory | 381 |
14 Bessel Functions | 643 |
15 Legendre Functions | 715 |
16 Angular Momentum | 773 |
17 Group Theory | 815 |
18 More Special Functions | 871 |
19 Fourier Series | 935 |
20 Integral Transforms | 963 |
21 Integral Equations | 1047 |
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Additional Readings analytic angular momentum apply asymptotic basis Bessel functions boundary conditions Cartesian Chapter coefficients complex components compute constant contour integral convergence coordinate system corresponding defined derivatives determinant diagonal differential equation direction divergence eigenfunctions eigenvalue eigenvectors elements evaluate Example Exercise expansion exponential factor finite formula Fourier series Green¡¯s function Helmholtz equation Hermite polynomials Hermitian Hint hypergeometric identified integral representation integrand inverse Laplace Legendre Legendre polynomials linearly independent mathematical matrix method multiplication nonzero notation Note obtain operator orthogonal orthonormal particle physics polynomials potential power series problem properties quantities recurrence relations result Rodrigues formula rotation satisfy scalar product Section self-adjoint Show singularity solution space spherical harmonics spherical polar coordinates summation symmetry tensor theorem unitary vanish variable Verify wave function write Wronskian zero