Molecular Quantum Mechanics: An Introduction to Quantum Chemistry, Volume 1 |
Contents
HISTORICAL INTRODUCTION | 3 |
THE SCHRÖDINGER EQUATION | 26 |
EXACT SOLUTIONS | 46 |
Copyright | |
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Common terms and phrases
A₁ angular momentum applied field atomic orbitals axis B₁ basis bond calculation Chapter character table classical coefficients commutation components configuration consider constant coordinates corresponding deduce degeneracy degenerate density determined diatomic molecule discussion effect eigenfunctions eigenvalue electric dipole electron energy levels evaluated example excited expression frequency given by eqn group theory hamiltonian harmonic oscillator Hint hydrogen atom integral interaction irreducible representations j₁ kinetic energy linear m₁ magnetic field magnetic moment magnitude matrix elements molecular orbital momenta nuclear nucleus observed obtained occur operator orthogonal p-orbitals paramagnetic particle perturbation photon polarizability polarization potential energy principle problem quantity quantum mechanics quantum number radiation resonance result rotation Schrödinger equation selection rule shown in Fig singlet solution span spectra spectrum spherical spin spin-orbit coupling structure symmetry transformation theorem tion vector vibrational wave function wavelength write written zero