Quantum PhysicsProvides an extensive introduction to quantum mechanics, with great emphasis on applications to a large part of modern physics. |
Contents
The Limits of Classical Physics | 1 |
Wave Packets and the Uncertainty Relations | 25 |
The Schrödinger Wave Equation | 45 |
Copyright | |
27 other sections not shown
Common terms and phrases
angular momentum approximation Bohr calculate center of mass Chapter charge classical coefficients commutation relations conservation Consider corresponding Coulomb cross section d³r decay defined delta function density discussion effect eigenfunctions eigenstates eigenvalue electromagnetic electron emitted energy shift example excited expectation value factor flux formula frequency given ground H₁ Hamiltonian harmonic oscillator helium hence hermitian operator hydrogen atom i-spin implies integral interaction kinetic energy L₂ levels linear combinations magnetic field matrix element meson molecule momenta neutron nuclear nucleon nucleus obtain orbitals parity particles perturbation photoelectric effect photon physics pions potential problem quantum mechanics quantum number r₁ radiation relativistic rotational rR(r S₂ scalar scattering Schrödinger equation singlet solution spin square symmetry theory tion transition triplet vanishes vector wave function wave packet wavelength weak interactions write yields ΔΕ дх