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J16
M1
M2
M3
E1
E2
E3
Q1
Q2
Q3
T1
T2
T3
M15
M1
small oscillations
M2
Orbits
M3
rigid body-motion
E1
radiation
E2
EM Fields in Matter
E3
Q1
1D QM
Q2
QHO
Q3
Quantum Scattering
T1
Ising Model
T2
Van der Waals Gas
T3
Magnetic Fields
J15
M1
Orbits
M2
normal modes
M3
rolling constraints
E1
Induction
E2
EM Waves
E3
Magnetostatic
Q1
Eigenstates/ Values
Q2
TD Hamiltonians/ Perturbations
Q3
T1
Temperatures/ Altitude
T2
T3
Bose-Einstein Condensate
J14
M1
Orbits
M2
M3
E1
EM Fields in Matter
E2
Induction
E3
EM Waves
Q1
Q2
Q3
T1
T2
Fermi Gas
T3
Polymers
M13
M1
M2
M3
E1
E2
E3
Q1
Spin/ Ang Momentum
Q2
TD Hamiltonians/ Perturbations
Q3
Spin/ Ang Momentum
T1
T2
T3
J13
M1
non-intertial ref frame
M2
Orbits
M3
Orbits
E1
Magnetostatic
E2
radiation
E3
Induction
Q1
1D QM
Q2
Eigenstates/ Values
Q3
Eigenstates/ Values
T1
Polymers
T2
Fermi Gas
T3
Phase Transitions
M12
M1
mechanical vibration
M2
rigid body-motion
M3
rigid body-motion
E1
Induction
E2
radiation
E3
Vector Potential
Q1
Quantum Scattering
Q2
Hydrogen/ Atomic
Q3
Eigenstates/ Values
T1
Temperatures/ Altitude
T2
Heat Engine/ Cycle
T3
J12
M1
rigid body-motion
M2
rigid body-motion
M3
non-intertial ref frame
E1
EM Waves
E2
E3
Magnetostatic
Q1
TD Hamiltonians/ Perturbations
Q2
Eigenstates/ Values
Q3
EM in QM
T1
Fermi Gas
T2
Phase Transitions
T3
J11
M1
rigid body-motion
M2
rigid body-motion
M3
normal modes
E1
Wave Guides
E2
EM Fields in Matter
E3
Magnetostatic
Q1
Q2
perturbation theory
Q3
Eigenstates/ Values
T1
Temperatures/ Altitude
T2
Phase Transitions
T3
Phase Transitions
M10
M1
small oscillations
M2
friction
M3
rigid body-motion
E1
EM Fields in Matter
E2
Vector Potential
E3
Induction
Q1
Eigenstates/ Values
Q2
perturbation theory
Q3
Spin/ Ang Momentum
T1
Polymers
T2
Fermi Gas
T3
Van der Waals Gas
J10
M1
lagrangian mechanis
M2
Orbits
M3
friction
E1
Method of Images
E2
EM Fields in Matter
E3
Wave Guides
Q1
QHO
Q2
Spin/ Ang Momentum
Q3
Quantum Scattering
T1
Fermi Gas
T2
T3
Phase Transitions
M09
M1
fluid mechanics
M2
M3
E1
Wave Guides
E2
E3
Method of Images
Q1
perturbation theory
Q2
Spin/ Ang Momentum
Q3
Quantum Scattering
T1
Diatomic Gas in E-Field
T2
Particles on a Line
T3
Chemical Potential
J09
M1
normal modes
M2
continuous media
M3
E1
E2
Capacitors
E3
Magnetostatic
Q1
TD Hamiltonians/ Perturbations
Q2
EM in QM
Q3
T1
T2
T3
M08
M1
small oscillations
M2
normal modes
M3
Orbits
E1
E2
radiation
E3
Magnetostatic
Q1
1D QM
Q2
QHO
Q3
Spin/ Ang Momentum
T1
Brownian Motion
T2
Van der Waals Gas
T3
Fermi Gas
J08
M1
lagrangian mechanis
M2
small oscillations
M3
fluid mechanics
E1
Vector Potential
E2
Induction
E3
Q1
Eigenstates/ Values
Q2
TD Hamiltonians/ Perturbations
Q3
EM in QM
T1
Fermi Gas
T2
Fermi Gas
T3
Brownian Motion
M07
M1
Orbits
M2
M3
mechanical vibration
E1
Method of Images
E2
E3
EM Waves
Q1
Q2
Quantum Scattering
Q3
perturbation theory
T1
Phase Transitions
T2
Heat Engine/ Cycle
T3
Phase Transitions
J07
M1
rolling constraints
M2
normal modes
M3
fluid mechanics
E1
Method of Images
E2
curvilinear coordinates
E3
EM Waves
Q1
1D QM
Q2
1D QM
Q3
T1
Hydrogen Formation
T2
Diatomic Gas in E-Field
T3
Waves
M06
M1
M2
lagrangian mechanis
M3
continuous media
E1
curvilinear coordinates
E2
Induction
E3
radiation
Q1
1D QM
Q2
Q3
1D QM
T1
Particles on a Line
T2
Diatomic Gas in E-Field
T3
Bose-Einstein Condensate
J06
M1
small oscillations
M2
Orbits
M3
small oscillations
E1
curvilinear coordinates
E2
Magnetostatic
E3
radiation
Q1
Q2
1D QM
Q3
TD Hamiltonians/ Perturbations
T1
T2
Phase Transitions
T3
Polymers
M05
M1
mechanical vibration
M2
continuous media
M3
Orbits
E1
EM Fields in Matter
E2
Wave Guides
E3
radiation
Q1
TD Hamiltonians/ Perturbations
Q2
Quantum Scattering
Q3
T1
Fermi Gas
T2
Crystal Lattice
T3
Waves
J05
M1
friction
M2
classical scattering
M3
mechanical vibration
E1
curvilinear coordinates
E2
EM Waves
E3
EM Fields in Matter
Q1
Q2
perturbation theory
Q3
TD Hamiltonians/ Perturbations
T1
Polymers
T2
Bose-Einstein Condensate
T3
M04
M1
M2
normal modes
M3
rigid body-motion
E1
curvilinear coordinates
E2
radiation
E3
Induction
Q1
Hydrogen/ Atomic
Q2
Spin/ Ang Momentum
Q3
Quantum Scattering
T1
Heat Engine/ Cycle
T2
Waves
T3
Particles on a Line
J04
M1
M2
Orbits
M3
rigid body-motion
E1
Capacitors
E2
radiation
E3
Q1
Q2
Q3
TD Hamiltonians/ Perturbations
T1
Magnetic Fields
T2
Fermi Gas
T3
Polymers
M03
M1
Orbits
M2
rolling constraints
M3
mechanical vibration
E1
Vector Potential
E2
Method of Images
E3
EM Waves
Q1
TD Hamiltonians/ Perturbations
Q2
Quantum Scattering
Q3
Spin/ Ang Momentum
T1
T2
Fermi Gas
T3
Gas in Container
J03
M1
small oscillations
M2
normal modes
M3
Orbits
E1
EM Waves
E2
Method of Images
E3
radiation
Q1
Quantum Scattering
Q2
TD Hamiltonians/ Perturbations
Q3
Spin/ Ang Momentum
T1
Gas in Container
T2
T3
Magnetic Fields
M02
M1
lagrangian mechanis
M2
normal modes
M3
non-intertial ref frame
E1
Magnetostatic
E2
EM Fields in Matter
E3
Q1
QHO
Q2
Eigenstates/ Values
Q3
EM in QM
T1
Gas in Container
T2
Hydrogen Formation
T3
Phase Transitions
J02
M1
M2
Orbits
M3
continuous media
E1
Wave Guides
E2
Induction
E3
EM Fields in Matter
Q1
Eigenstates/ Values
Q2
Q3
perturbation theory
T1
Van der Waals Gas
T2
Chemical Potential
T3
Oscillators
M01
M1
continuous media
M2
M3
friction
E1
Capacitors
E2
EM Waves
E3
Induction
Q1
Q2
Hydrogen/ Atomic
Q3
Quantum Scattering
T1
T2
Polymers
T3
Magnetic Fields
J01
M1
small oscillations
M2
rigid body-motion
M3
rigid body-motion
E1
E2
Induction
E3
EM Waves
Q1
perturbation theory
Q2
1D QM
Q3
TD Hamiltonians/ Perturbations
T1
Gas in Container
T2
Chemical Potential
T3
Ising Model
M00
M1
Orbits
M2
M3
small oscillations
E1
EM Waves
E2
radiation
E3
Induction
Q1
perturbation theory
Q2
Spin/ Ang Momentum
Q3
Spin/ Ang Momentum
T1
Phase Transitions
T2
Brownian Motion
T3
Crystal Lattice
J00
M1
continuous media
M2
lagrangian mechanis
M3
Orbits
E1
Capacitors
E2
Induction
E3
radiation
Q1
Quantum Scattering
Q2
perturbation theory
Q3
Eigenstates/ Values
T1
Magnetic Fields
T2
Gas in Container
T3
Bose-Einstein Condensate
M99
M1
rolling constraints
M2
classical scattering
M3
continuous media
E1
radiation
E2
Induction
E3
EM Fields in Matter
Q1
Spin/ Ang Momentum
Q2
Hydrogen/ Atomic
Q3
T1
Heat Engine/ Cycle
T2
Polymers
T3
Waves
J99
M1
M2
lagrangian mechanis
M3
Orbits
E1
EM Waves
E2
EM Waves
E3
radiation
Q1
Hydrogen/ Atomic
Q2
Spin/ Ang Momentum
Q3
TD Hamiltonians/ Perturbations
T1
Chemical Potential
T2
Phase Transitions
T3
M98
M1
rolling constraints
M2
normal modes
M3
fluid mechanics
E1
Vector Potential
E2
EM Fields in Matter
E3
radiation
Q1
Spin/ Ang Momentum
Q2
Quantum Scattering
Q3
T1
Heat Engine/ Cycle
T2
Oscillators
T3
J98
M1
continuous media
M2
normal modes
M3
rolling constraints
E1
EM Waves
E2
E3
curvilinear coordinates
Q1
perturbation theory
Q2
1D QM
Q3
Spin/ Ang Momentum
T1
T2
Phase Transitions
T3
Magnetic Fields