8.05 Quantum Physics II, Fall 2004
Author(s)
Stewart, Iain
Download8-05-fall-2004/contents/index.htm (34.10Kb)
Alternative title
Quantum Physics II
Metadata
Show full item recordAbstract
Together, this course and 8.06: Quantum Physics III cover quantum physics with applications drawn from modern physics. Topics covered in this course include the general formalism of quantum mechanics, harmonic oscillator, quantum mechanics in three-dimensions, angular momentum, spin, and addition of angular momentum.
Date issued
2004-12Other identifiers
8.05-Fall2004
local: 8.05
local: IMSCP-MD5-960e06c620096ed2555e5345ebaae144
Keywords
General formalism of quantum mechanics: states, operators, Dirac notation, representations, measurement theory, Harmonic oscillator: operator algebra, states, Quantum mechanics in three-dimensions: central potentials and the radial equation, bound and scattering states, qualitative analysis of wavefunctions, Angular momentum: operators, commutator algebra, eigenvalues and eigenstates, spherical harmonics, Spin: Stern-Gerlach devices and measurements, nuclear magnetic resonance, spin and statistics, Addition of angular momentum: Clebsch-Gordan series and coefficients, spin systems, allotropic forms of hydrogen, Angular momentum, operators, Harmonic oscillator, operator algebra, Spin, Stern-Gerlach devices and measurements, central potentials and the radial equation, Clebsch-Gordan series and coefficients, quantum physics, Harmonic oscillator: operator algebra, 8. Quantum mechanics in three-dimensions: central potentials and the radial equation, Quantum mechanics in three-dimensions: central potentials and the radial equation, Angular momentum: operators, Addition of angular momentum: Clebsch-Gordan series and coefficients, General formalism of quantum mechanics: states, operators, Dirac notation, representations, measurement theory, Harmonic oscillator: operator algebra, states, Quantum mechanics in three-dimensions: central potentials and the radial equation, bound and scattering states, qualitative analysis of wavefunctions, Angular momentum: operators, commutator algebra, eigenvalues and eigenstates, spherical harmonics, Spin: Stern-Gerlach devices and measurements, nuclear magnetic resonance, spin and statistics, Addition of angular momentum: Clebsch-Gordan series and coefficients, spin systems, and allotropic forms of hydrogen, Quantum theory