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Quantum mechanics [by] Eugen Merzbacher.

By: Material type: TextTextPublication details: New York, J. Wiley [1970]Edition: 2d edDescription: x, 621 p. illus. 23 cmISBN:
  • 0471596701
Subject(s): DDC classification:
  • 530.12
LOC classification:
  • QC174.1 .M36 1970
Contents:
Introduction to quantum mechanics -- Wave packets and free particle motion -- The wave equation -- The wave function and the Schrödinger equation -- The linear harmonic oscillator -- Piecewise constant potentials in one dimension -- The WKB approximation -- The principles of wave mechanics -- Central forces and angular momentum -- Piecewise constant potentials in three dimensions and the hydrogen atom -- Scattering -- The spin -- Dynamics of two-level systems -- Linear vector spaces in quantum mechanics -- Quantum dynamics -- Rotations and other symmetry operations -- Bound state perturbation theory -- Time-dependent perturbation theory -- The formal theory of scattering -- Identical particles -- Applications of second quantization -- Photons and the electromagnetic field -- Relativistic electron theory -- One-electron Dirac theory.
Holdings
Item type Current library Call number Copy number Status Date due Barcode
Books (30-Day Checkout) Books (30-Day Checkout) Nash Library General Stacks QC174.1.M36 1970 1 Available 33710000390646

Bibliographical footnotes.

WAR, NEWBERY,

Introduction to quantum mechanics -- Wave packets and free particle motion -- The wave equation -- The wave function and the Schrödinger equation -- The linear harmonic oscillator -- Piecewise constant potentials in one dimension -- The WKB approximation -- The principles of wave mechanics -- Central forces and angular momentum -- Piecewise constant potentials in three dimensions and the hydrogen atom -- Scattering -- The spin -- Dynamics of two-level systems -- Linear vector spaces in quantum mechanics -- Quantum dynamics -- Rotations and other symmetry operations -- Bound state perturbation theory -- Time-dependent perturbation theory -- The formal theory of scattering -- Identical particles -- Applications of second quantization -- Photons and the electromagnetic field -- Relativistic electron theory -- One-electron Dirac theory.