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課程名稱 |
熱物理
Thermal Physics |
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開課學期 |
101-1 |
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授課對象 |
理學院 物理學系 |
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授課教師 |
陳義裕 |
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課號 |
Phys3006 |
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課程識別碼 |
202 32400 |
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班次 |
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學分 |
3 |
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全/半年 |
半年 |
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必/選修 |
必帶 |
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上課時間 |
星期二5,6,7(12:20~15:10) |
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上課地點 |
新物111 |
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備註 |
限本系所學生(含輔系、雙修生)
總人數上限:80人
外系人數限制:5人 |
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Ceiba 課程網頁 |
http://ceiba.ntu.edu.tw/1011ThermalPhys |
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課程簡介影片 |
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核心能力關聯 |
核心能力與課程規劃關聯圖 |
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課程大綱
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為確保您我的權利,請尊重智慧財產權及不得非法影印
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課程概述 |
上課年級:三上
學分數:3
課程大綱:
We will mainly focus on classical thermodynamics (Topics 1-10 listed below), with a sprinkle of statistical physics here and there, leaving the statistical part (Topics 11-19 listed below) mainly for another course (Intro. To Statistical Physics). The following is a free adaptation of the table of content from the textbook. As in all the courses I have taught before, the coverage of the topics might deviate from this list, depending partly on the pace and the acceptance of the audience. Anything left behind will be taken up in the next semester when Intro. To Statistical Physics is offered. |
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課程目標 |
上課年級:三上
學分數:3
課程內容:
1. A Highly Biased and Simplified Timeline
2. The Nature of Thermodynamics
So Few for So Many
Temperature and the Zeroth Law of Thermodynamics
Thermometers and Some Temperature Scales
2. Equations of State
Boyle, Amontons, Charles, Gay-Lussac, and Clapeyron
Equation of State of an Ideal Gas
Van der Waals' Equation for a Real Gas
P-v-T Surfaces for Real Substances
Expansivity and Compressibility
3. The First Law of Thermodynamics
Work and Internal Energy
Heat
The Mechanical Equivalent of Heat
4. Applications of the First Law
Heat Capacity
Mayer's Equation
Enthalpy
5. Consequences of the First Law
The Gay-Lussac-Joule Experiment
The Joule-Thomson Experiment
Heat Engines and the Carnot Cycle
6. The Second Law of Thermodynamics
The Concept of Entropy
Reversible and Irreversible Processes
Carnot's Theorem
The Clausius Inequality and the Second Law
Entropy and Available Energy
Absolute Temperature
Combined First and Second Laws
Otto and Diesel
7. Applications of the Second Law
Entropy Changes in Reversible Processes
Entropy Change of the Surroundings for a Reversible Process
Entropy Change for an Ideal Gas
The Tds Equations
Newton and the Speed of Sound
Entropy Change in Irreversible Processes
Free Expansion of an Ideal Gas
Entropy Change for a Liquid or Solid
8. Thermodynamic Potentials.
All Those Wonderful Partial Derivatives
The Legendre Transformation
Definition of the Thermodynamic Potentials
The Maxwell Relations
The Helmholtz Function and the Gibbs Function
Application of the Gibbs Function to Phase Transitions
Van der Waals again, with Maxwell’s construction
An Application of the Maxwell Relations
Conditions of Stable Equilibrium
9. The Chemical Potential and Open Systems
The Chemical Potential
Phase Equilibrium
The Gibbs Phase Rule
Mixing Processes
A Little Bit of Chemistry
10. The Third Law of Thermodynamics
Statements of the Third Law
Methods of Cooling
Consequences of the Third Law
11. Critical Phenomena
Some Observations
Phenomenological Model of Ginzburg and Landau
12. Thermoelectric Effects
Seebeck, Peltier, and Thomson
13. The Kinetic Theory of Gases
Gas Pressure and the Ideal Gas Law
Equipartition of Energy: A Preview
Specific Heat Capacity of an Ideal Gas
A Cloud Shadowing the Sky of 19th Century Physics
Distribution of Molecular Speeds, A Simple Derivation
Mean Free Path and Collision Frequency
Effusion
Transport Processes
14. Statistical Thermodynamics
Coin-Tossing Experiment
Application to Brownian Motion
Distinguishing Them or Not, That Is the Question
Thermodynamic Probability and Entropy
Quantum States and Energy Levels
Density of Quantum States.
15. Classical and Quantum Statistics.
Boltzmann Statistics
The Method of Lagrange Multipliers
The Maxwell-Boltzmann Distribution
The Fermi-Dirac Distribution
The Bose-Einstein Distribution
Dilute Gases and the Maxwell-Boltzmann Distribution
The Connection between Classical and Statistical Thermodynamics
Comparison of the Distributions
16. The Classical Statistical Treatment of an Ideal Gas.
Thermodynamic Properties from the Partition Function
Partition Function for a Gas
Properties of a Monatomic Ideal Gas
Applicability of the Maxwell-Boltzmann Distribution
Distribution of Molecular Speeds, Yet Another Derivation
Equipartition of Energy: The Classical Derivation
Entropy Change of Mixing Revisited
Maxwell's Demon.
17. The Black Body Radiation
Kirchhoff’s Investigation
Stefan-Boltzmann Law
Wien’s Analysis and Guess
Rayleigh’s Insight
Planck, and How the Puzzle Was Solved
18. The Heat Capacity of a Diatomic Gas.
The Translational Motion
Rotational Modes of Diatomic Molecules
The Quantified Linear Oscillator and the Vibrational Modes of Diatomic Molecules
Electronic Excitation
The Total Heat Capacity.
19. The Heat Capacity of a Solid
Dulong-Petit Rule
Einstein's Theory of the Heat Capacity of a Solid
Debye's Theory of the Heat Capacity of a Solid
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課程要求 |
Grading Policy:
1. Midterm: 35%, to be held on (Tuesday) November 6, 2012
2. Final: 35%, to be held on (Tuesday) January 8, 2013
3. Homework 30%. No late homework accepted.
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預期每週課後學習時數 |
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Office Hours |
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指定閱讀 |
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參考書目 |
1. D. V. Schroeder, An Introduction to Thermal Physics (1999)
2. M. W. Zemansky and R. H. Dittman, Heat and Thermodynamics, 7th ed. (1996)
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評量方式
(僅供參考) |
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