Quantum Mechanics Solution Manual
© Leon van Dommelen
Next:
N.1 Why this book?
N. Notes
Subsections
N.
1
Why this book?
N.
2
History and wish list
N.
3
Nature and real eigenvalues
N.
4
Are Hermitian operators really like that?
N.
5
Why boundary conditions are tricky
N.
6
Is the variational approximation best?
N.
7
Shielding approximation limitations
N.
8
Why the s states have the least energy
N.
9
Explanation of the band gaps
N.
10
A less fishy story
N.
11
Better description of two-state systems
N.
12
Second quantization in other books
N.
13
Combining angular momentum factors
N.
14
The electric multipole problem
N.
15
A tenth of a googol in universes
N.
16
A single Slater determinant is not exact
N.
17
Generalized orbitals
N.
18
Correlation energy
N.
19
Ambiguities in electron affinity
N.
20
Why Floquet theory should be called so
N.
21
Superfluidity versus BEC
N.
22
The mechanism of ferromagnetism
N.
23
Fundamental assumption of statistics
N.
24
A problem if the energy is given
N.
25
The recipe of life
N.
26
Physics of the fundamental commutators
N.
27
Magnitude of components of vectors
N.
28
Adding angular momentum components
N.
29
Clebsch-Gordan tables are bidirectional
N.
30
Machine language Clebsch-Gordan tables
N.
31
Existence of magnetic monopoles
N.
32
More on Maxwell’s third law
N.
33
Setting the record straight on alignment
N.
34
NuDat 2 data selection
N.
35
Auger discovery
N.
36
Draft: Cage-of-Faraday proposal
Next:
N.1 Why this book?
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