Introduction to Quantum Mechanics: With Applications to ChemistryMcGraw-Hill book Company, 1935 - 468 páginas This text applies quantum mechanics to a broad range of chemical and physical problems, covering such subjects as wave functions for the hydrogen atom, perturbation theory, the Pauli exclusion principle, and the structure of simple and complex molecules. Numerous tables and figures. --From publisher's description. |
Índice
SURVEY OF CLASSICAL MECHANICS | 1 |
The Equations of Motion in the Hamiltonian Form | 7 |
The Hamiltonian Function and Equations | 16 |
Página de créditos | |
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Otras ediciones - Ver todo
Introduction to Quantum Mechanics: With Applications to Chemistry Linus Pauling,Edgar Bright Wilson Vista previa restringida - 1985 |
Introduction to Quantum Mechanics with Applications to Chemistry Linus Pauling,E. Bright Wilson Vista previa restringida - 2012 |
Introduction to Quantum Mechanics: With Applications to Chemistry Linus Pauling,Edgar Bright Wilson Vista de fragmentos - 1935 |
Términos y frases comunes
amplitude angular momentum antisymmetric application approximate axis azimuthal quantum Bohr orbit calculated Cartesian coordinates chapter classical classical mechanics coefficients configuration space constant corresponding degenerate differential equation discussion electron energy levels energy values equal equations of motion expression əqi factor first-order perturbation frequency given in Equation harmonic oscillator helium helium atom hydrogen atom hydrogen molecule hydrogenlike inasmuch integral interaction introduced Laguerre polynomials linear m₁ molecule-ion normal hydrogen nuclear nucleus obtain old quantum theory orthogonal functions parameter particle perturbation theory Phys polar coordinates polynomials potential energy potential function probability distribution function Problem quantity quantum mechanics quantum number radiation represent result rotational Schrödinger Section secular equation shown sin² solution spin stationary symbol symmetric tion total energy treatment unperturbed vanish variables variation function variation method wave equation wave functions wave mechanics zero