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ACE Award Courses
General Physics I
General Physics II
Thermal and Stat Phys I
Thermal and Stat Phys II
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Quantum Physics I
Quantum Physics II
Scientific Writing and Short Talks
Thermal and Statistical Physics I
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2013 ACE Award (Open Education Consortium)
OCW designed by Professor HsiuHau LIN
Textbook:
Thermal Physics (2nd edition)
by C. Kittel and H. Kroemer.
You can find the lecture videos in
NTHU OCW
Class Lectures (Semester I)
Week 1
L1: course introduction
L2:
multiplicity
(Chap 1)
Week 2
L3:
binary model
(Chap 1)
L4:
most probable configuration
(Chap 2)
Week 3
L5:
temperature
(Chap 2)
L6:
entropy
(Chap 2)
Week 4
L7: Boltzmann distribution in economy (Chap 3)
L8:
Boltzmann factor
(Chap 3)
Week 5
L9:
partition function
(Chap 3)
L10:
Helmholtz free energy
(Chap 3)
Week 6
L11:
SackurTetrode equation
(Chap 3)
Midterm 1 (Chap 13)
Week 7
Midterm1 discussions
Week 8
L12:
photons and Planck radiation law
(Chap 4)
L13: photons and Planck radiation law 2 (Chap 4)
Week 9
L14:
fluctuationdissipation theorem
(Chap 4)
L15: fluctuationdissipation theorem 2 (Chap 4)
Week 10
L16:
phonons and Debye theory
(Chap 5)
L17:
chemical potential
(Chap 5)
Week 11
L18:
thermodynamic identities
(Chap 5)
L19:
Gibbs sum
(Chap 5)
Week 12
Midterm 2 (Chap 45)
Midterm 2 discussions
Week 13
L20:
quantum statistics
(Chap 6)
L21:
Fermi and Bose functions
(Chap 6)
Week 14
L22:
ideal gas in classical limit
(Chap 6)
L23:
thermal processes for ideal gas
(Chap 6)
Week 15
L24:
BoseEinstein condensation
(Chap 7)
L25: BoseEinstein condensation 2 (Chap 7)
Week 16
L26:
liquid Helium
(Chap 7)
L27:
Fermi gas
(Chap 7)
Week 17
L28:
where to find Fermi gas
(Chap 7)
Final (Chap 67)
Week 18
(Final Week)
Final discussions
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2013 ACE Award (Open Education Consortium)
OCW designed by Professor HsiuHau LINTextbook: Thermal Physics (2nd edition)
by C. Kittel and H. Kroemer.
You can find the lecture videos in NTHU OCW
Class Lectures (Semester I)
Week 1
L1: course introduction
L2: multiplicity (Chap 1)
Week 2
L3: binary model (Chap 1)
L4: most probable configuration (Chap 2)
Week 3
L5: temperature (Chap 2)
L6: entropy (Chap 2)
Week 4
L7: Boltzmann distribution in economy (Chap 3)
L8: Boltzmann factor (Chap 3)
Week 5
L9: partition function (Chap 3)
L10: Helmholtz free energy (Chap 3)
Week 6
L11: SackurTetrode equation (Chap 3)
Midterm 1 (Chap 13)
Week 7
Midterm1 discussions
Week 8
L12: photons and Planck radiation law (Chap 4)
L13: photons and Planck radiation law 2 (Chap 4)
Week 9
L14: fluctuationdissipation theorem (Chap 4)
L15: fluctuationdissipation theorem 2 (Chap 4)
Week 10
L16: phonons and Debye theory (Chap 5)
L17: chemical potential (Chap 5)
Week 11
L18: thermodynamic identities (Chap 5)
L19: Gibbs sum (Chap 5)
Week 12
Midterm 2 (Chap 45)
Midterm 2 discussions
Week 13
L20: quantum statistics (Chap 6)
L21: Fermi and Bose functions (Chap 6)
Week 14
L22: ideal gas in classical limit (Chap 6)
L23: thermal processes for ideal gas (Chap 6)
Week 15
L24: BoseEinstein condensation (Chap 7)
L25: BoseEinstein condensation 2 (Chap 7)
Week 16
L26: liquid Helium (Chap 7)
L27: Fermi gas (Chap 7)
Week 17
L28: where to find Fermi gas (Chap 7)
Final (Chap 67)
Week 18 (Final Week)
Final discussions