教學大綱表 (109學年度 第1學期)
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課程名稱
Course Title		 (中文) 冶金熱力學(一)
(英文) Metallurgical Thermodynamics 		開課單位
Departments		 材料工程學系
課程代碼
Course No.		 T3111A
授課教師
Instructor		 楊木榮
學分數
Credit		 3.0 必/選修
core required/optional		 必修 開課年級
Level		 大二
先修科目或先備能力(Course Pre-requisites):
課程概述與目標(Course Overview and Goals):Thermodynamics is a key engineering science which provides a means of quantifying and predicting the equilibrium states of any material. The fundamental concepts and laws of thermodynamics, and the thermodynamic properties of materials and their relationships will be introduced in the first part of ths course. The treatment is mainly within the scope of classical thermodynamics. However, development of some basic concepts of statistical thermodynamics will also be covered. In the second part of the course, applications of the thermodynamic principals and techniques to the phase and chemical equilibria in various systems will be presented.
教科書(Textbook) Introduction to Thermodynamics of Materials, 5th ed., by D.R. Gaskell, Taylor & Francis, 2008.
參考教材(Reference) (1) Thermodynamics in Materials Science, by R.T. DeHoff , McGraw-Hill, Inc., 1993.
(2) Thermodynamic Loop Applications in Materials System, Vol. 1, by D.L. Johnson and G.B. Stracher , 1995.
(3) Thermodynamics of Materials, Vol. I and II,
課程大綱 Syllabus 學生學習目標
Learning Objectives		 單元學習活動
Learning Activities		 學習成效評量
Evaluation		 備註
Notes

No.		 單元主題
Unit topic		 內容綱要
Content summary
1 Introduction and Definition of Terms 1. The Concept of State
2. The Equation of State of an Ideal Gas 		1. The Concept of State
2. The Equation of State of an Ideal Gas		  
2 The First Law of Thermodynamics 1. Internal Energy and the First Law of Thermodynamics
2. Heat Capacity
3. Reversible Adiabatic Process 		1. Internal Energy and the First Law of Thermodynamics
2. Heat Capacity
3. Reversible Adiabatic Process		  
3 The First Law of Thermodynamics 1. Internal Energy and the First Law of Thermodynamics
2. Heat Capacity
3. Reversible Adiabatic Process 		1. Internal Energy and the First Law of Thermodynamics
2. Heat Capacity
3. Reversible Adiabatic Process		  
4 The Second Law of Thermodynamics 1. Spontaneous Process
2. Entropy and the Quantification of Irreversibility
3. Heat Engines
4. The Second Law of Thermodynamics
5. Entropy and the Criterion for Equilibrium
6. The Combined Statement of 1st and 2nd Laws 		1. Spontaneous Process
2. Entropy and the Quantification of Irreversibility
3. Heat Engines
4. The Second Law of Thermodynamics
5. Entropy and the Criterion for Equilibrium
6. The Combined Statement of 1st and 2nd Laws		  
5 The Second Law of Thermodynamics 1. Spontaneous Process
2. Entropy and the Quantification of Irreversibility
3. Heat Engines
4. The Second Law of Thermodynamics
5. Entropy and the Criterion for Equilibrium
6. The Combined Statement of 1st and 2nd Laws 		1. Spontaneous Process
2. Entropy and the Quantification of Irreversibility
3. Heat Engines
4. The Second Law of Thermodynamics
5. Entropy and the Criterion for Equilibrium
6. The Combined Statement of 1st and 2nd Laws		  
6 The Second Law of Thermodynamics 1. Spontaneous Process
2. Entropy and the Quantification of Irreversibility
3. Heat Engines
4. The Second Law of Thermodynamics
5. Entropy and the Criterion for Equilibrium
6. The Combined Statement of 1st and 2nd Laws 		1. Spontaneous Process
2. Entropy and the Quantification of Irreversibility
3. Heat Engines
4. The Second Law of Thermodynamics
5. Entropy and the Criterion for Equilibrium
6. The Combined Statement of 1st and 2nd Laws		  
7 The Statistical Interpretation of Entropy 1. The Concept of Microstate
2. Thermal Equilibrium and the Boltzmann Equation
3. Configurational Entropy and Thermal Entropy 		1. The Concept of Microstate
2. Thermal Equilibrium and the Boltzmann Equation
3. Configurational Entropy and Thermal Entropy		  
8 The Statistical Interpretation of Entropy 1. The Concept of Microstate
2. Thermal Equilibrium and the Boltzmann Equation
3. Configurational Entropy and Thermal Entropy 		1. The Concept of Microstate
2. Thermal Equilibrium and the Boltzmann Equation
3. Configurational Entropy and Thermal Entropy		  
9 Ch1-Ch4 期中考 期中考  
10 Auxiliary Functions 1. The Helmholtz Free Energy
2. The Gibbs Free Energy
3. The Chemical Potential
4. Thermodynamic Relations
5. Maxwell's Equations
6. The Gibbs-Helmholtz Equation 		1. The Helmholtz Free Energy
2. The Gibbs Free Energy
3. The Chemical Potential
4. Thermodynamic Relations
5. Maxwell's Equations
6. The Gibbs-Helmholtz Equation		  
11 Auxiliary Functions 1. The Helmholtz Free Energy
2. The Gibbs Free Energy
3. The Chemical Potential
4. Thermodynamic Relations
5. Maxwell's Equations
6. The Gibbs-Helmholtz Equation 		1. The Helmholtz Free Energy
2. The Gibbs Free Energy
3. The Chemical Potential
4. Thermodynamic Relations
5. Maxwell's Equations
6. The Gibbs-Helmholtz Equation		  
12 Heat Capacity, Enthalpy, Entropy, and The Third Law of Thermodynamics 1. Theoretical Calculation of the Heat Capacity
2. The Empirical Representation of Heat Capacities
3. The Third Law of Thermodynamics
4. Experimental Verification of the Third Law
5. The Influence of Pressure on Enthalpy and Entropy 		1. Theoretical Calculation of the Heat Capacity
2. The Empirical Representation of Heat Capacities
3. The Third Law of Thermodynamics
4. Experimental Verification of the Third Law
5. The Influence of Pressure on Enthalpy and Entropy		  
13 Heat Capacity, Enthalpy, Entropy, and The Third Law of Thermodynamics 1. Theoretical Calculation of the Heat Capacity
2. The Empirical Representation of Heat Capacities
3. The Third Law of Thermodynamics
4. Experimental Verification of the Third Law
5. The Influence of Pressure on Enthalpy and Entropy 		1. Theoretical Calculation of the Heat Capacity
2. The Empirical Representation of Heat Capacities
3. The Third Law of Thermodynamics
4. Experimental Verification of the Third Law
5. The Influence of Pressure on Enthalpy and Entropy		  
14 Heat Capacity, Enthalpy, Entropy, and The Third Law of Thermodynamics 1. Theoretical Calculation of the Heat Capacity
2. The Empirical Representation of Heat Capacities
3. The Third Law of Thermodynamics
4. Experimental Verification of the Third Law
5. The Influence of Pressure on Enthalpy and Entropy 		1. Theoretical Calculation of the Heat Capacity
2. The Empirical Representation of Heat Capacities
3. The Third Law of Thermodynamics
4. Experimental Verification of the Third Law
5. The Influence of Pressure on Enthalpy and Entropy		  
15 Phase Equilibrium in a One-Component System 1. Gibbs Free Energy as a Function of Temperature and Pressure
2. Equilibrium between the Vapor Phase and a Condensed Phase
3. Graphical Representation of Phase Equilibria
4. Solid-Solid Equilibria 		1. Gibbs Free Energy as a Function of Temperature and Pressure
2. Equilibrium between the Vapor Phase and a Condensed Phase
3. Graphical Representation of Phase Equilibria
4. Solid-Solid Equilibria		  
16 Phase Equilibrium in a One-Component System 1. Gibbs Free Energy as a Function of Temperature and Pressure
2. Equilibrium between the Vapor Phase and a Condensed Phase
3. Graphical Representation of Phase Equilibria
4. Solid-Solid Equilibria 		1. Gibbs Free Energy as a Function of Temperature and Pressure
2. Equilibrium between the Vapor Phase and a Condensed Phase
3. Graphical Representation of Phase Equilibria
4. Solid-Solid Equilibria		  
17 Phase Equilibrium in a One-Component System 1. Gibbs Free Energy as a Function of Temperature and Pressure
2. Equilibrium between the Vapor Phase and a Condensed Phase
3. Graphical Representation of Phase Equilibria
4. Solid-Solid Equilibria 		1. Gibbs Free Energy as a Function of Temperature and Pressure
2. Equilibrium between the Vapor Phase and a Condensed Phase
3. Graphical Representation of Phase Equilibria
4. Solid-Solid Equilibria		  
18 Ch5-Ch7 期末考 期末考  


教學要點概述:
1.自編教材 Handout by Instructor:
□ 1-1.簡報 Slids
□ 1-2.影音教材 Videos
□ 1-3.教具 Teaching Aids
□ 1-4.教科書 Textbook
□ 1-5.其他 Other
□ 2.自編評量工具/量表 Educational Assessment
□ 3.教科書作者提供 Textbook

成績考核 Performance Evaluation: 期末考:24%   期中考:20%   其他評量:16%   平時考:40%  

教學資源(Teaching Resources):
□ 教材電子檔(Soft Copy of the Handout or the Textbook)
□ 課程網站(Website)
扣考規定:https://curri.ttu.edu.tw/p/412-1033-1254.php