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10201 自然科學
常微分方程一
許世壁
清大數學系重量級教授退休前的最後一堂課,讓許世璧教授以嚴謹仔細的教學,讓你從源頭開始輕鬆理解ODE!沒上過許世璧教授的課,別說你懂常微分方程!體驗經典,就是現在!

 
一、課程說明(Course Description) 
       本課程著重於常微分方程之定性理論,預備知識需高等微積分及線性代數. 
       本課程提供三學分的常微分方程基本理論,為研究生之標準課程。 

二、指定用書(Text Books) 
      Sze-Bi Hsu: Ordinary Differential Equations with Applications. World Scientific,
      2013, 2nd edition 

三、參考書籍(References) 
      Jack Hale: Ordinary Equations 
      Jack Hale and Kocak: Dynamics and bifurcations 

四、教學方式(Teaching Method) 
      演講及計算. 
  
五、教學進度(Syllabus) 
1. Fundamental Theory of ODE: Existence: Uniqueness of System of ODE, Continuously dependence on parameter and initial conditions, Differential Inequality
2. Linear system : Linear systems with constant coefficients and Periodic Linear Systems, Louiville Formula, Two-Dimensional Phase plane analysis, 
3. Stability of Nonlinear Systems: Linearization, Variation of Constant Formula,. Stable and unstable manifolds, Orbital stability. 
 

  六、成績考核(Evaluation) 
      Homework: 30% 
      Mid term :30% 
      Final Exam.: 40% 

10201 自然科學
普通物理一
林秀豪

近年來,普通物理的課本越長越厚。老師怎麼教?學生如何讀?物理系專業的課程,教科書也沒長到這般怪獸的厚度,這真的是最有效率的學習方法嗎?我不以為然。在99學年,我決意進行一項普物教學的改革:每個學期我只教十個問題...

 

Ten Questions  we will discuss this semester

Q1: What is time?
Chapter 36 – Special Theory of Relativity
 
Q2: How to describe a dynamical system?
Chapter 4 – Dynamics: Newton’s Law of Motion
Chapter 14 – Oscillations 
 
Q3:Do forces always appear in pairs? 
Chapter 9 – Linear Momentum
 
Q4: Is energy always conserved?
Chapter 7 – Work and Energy
Chapter 8 – Conservation of Energy
 
Q5: How does a rotating top maintain its balance?
Chapter 10 – Rotational Motion
Chapter 11 – Angular Momentum; General Rotation
 
 
Q6: Are black holes black?
Chapter 6 – Gravitation and Newton’s Synthesis
Chapter 44 – Astrophysics and Cosmology
 
Q7: Is pressure in liquids a scalar, a vector or a tensor?
Chapter 13 – Fluids
 
Q8: What is propagating in traveling waves?
Chapter 15 – Wave Motion
Chapter 16 – Sound
 
Q9: How is thermal equilibrium reached?
Chapter 17 – Temperature, Thermal Expansion, and the Ideal Gas Law
Chapter 18 – Kinetic Theory of Gases
 
Q10: How to quantify uncertainty in a statistical system?
Chapter 19 – Heat and the First Law of Thermodynamics
Chapter 20 –Second Law of Thermodynamics
 
  
‍Syllabus (Fall, 2013)
 
Week 1
     Sep 17 (Tue) L1: Course introduction
     Sep 19 (Thu) 中秋節
 
Week 2
     Sep 24 (Tue) L2: What is time? 
     Sep 26 (Thu) L3: Lorentz transformation 
 
Week 3
     Oct 1 (Tue) L4: How to describe a dynamical system?
     Oct 3 (Thu) L5: Newton’s second law
 
Week 4
     Oct 8 (Tue) L6: Simple harmonic motion
     Oct 10 (Thu) 國慶日
 
Week 5
     Oct 15 (Tue) L7: Why do forces appear in pairs?
     Oct 17 (Thu) L8: Center of mass
 
Week 6
     Oct 20 (Sun) midterm (Q1-Q3)
     Oct 22 (Tue) L9: 期中考講解
     Oct 24 (Thu) 課堂討論
 
Week 7
     Oct 29 (Tue) L10: Is energy always conserved?
     Oct 31 (Thu) L11: Conservative force and potential energy
 
Week 8
     Nov 5 (Tue) L12: Energy, energy, energy
     Nov 7 (Thu) L13: How does a rotating top maintain its balance?
 
Week 9
     Nov 12 (Tue) L14: Moment of inertia
     Nov 14 (Thu) L15: Coriolis effect

Week 10
     Nov 19 (Tue) L16: Are black holes black?
     Nov 21 (Thu) L17: Gravity and spacetime curvature
 Week 11
     Nov 26 (Tue) L18: Is pressure in liquids a scalar,
     a vector or a tensor?
     Nov 28 (Thu) L19: Hagen-Poiseuille equation
  

Week 12
     Dec 1 (Sun) midterm (Q4-Q7)
     Dec 3 (Tue) L20: 期中考講解
     Dec 5 (Thu) L21: What is propagating in traveling waves? 

 
 Week 13
     Dec 10 (Tue) L22: Wave equation
     Dec 12 (Thu) L23: Wave equation 2

  
Week 14
     Dec 17 (Tue) L24: Sound waves  
     Dec 19 (Thu) L25: How is thermal equilibrium reached?
   
Week 15
     Dec 24 (Tue) L26: Heat and the first law of thermodynamics
     Dec 26 (Thu) L27: Heat and the first law of thermodynamics 2
 
Week 16
     Dec 31 (Tue) L28: How to quantify uncertainty in a statistical system?
     Jan 2 (Thu) L29: Entropy and the second law of thermodynamics
 
Week 17
     Jan 7 (Tue) L30: Entropy and the second law of thermodynamics 2 
     Jan 9 (Thu) Video: The race for absolute zero
 
 
Week 18(Final Week)
     Jan 12 (Sun) final (Q8-Q10)

 

10102 工程
線性代數
趙啟超

向量可以形成向量空間,在你腦袋裡卻只能是一片空白?線性方程組看似簡單但就是怎麼也解不出來?你的線性代數需要急救了嗎?不要慌張!不要害怕!讓超強線代急救員來幫助你!讓趙啟超教授拯救你的線代分數,面對考試超淡定!

 

一、先修課程 (Prerequisite)
Calculus.


二、課程說明 (Course Description)
This course gives
an introduction to the essentials of linear algebra. There will be four one-hour lectures per week.


三、指定用書 (Textbook)
G. Strang, Introduction to Linear Algebra, 4th ed. Wellesley, MA: Wellesley-Cambridge Press, 2009.


四、參考書籍 (References)

G. Strang, Linear Algebra and Its Applications, 4th ed. Belmont, CA: Thomson, Brooks/Cole, 2006. 
S. H. Friedberg, A. J. Insel, and L. E. Spence, Linear Algebra, 4th ed.;Upper Saddle River, NJ: Prentice Hall, 2003.
L. E. Spence, A. J. Insel, and S. H. Friedberg, Elementary Linear Algebra: A Matrix Approach, 2nd ed. Upper Saddle River, NJ: Prentice Hall, 2008. 
  S. J. Leon, Linear Algebra with Applications, 8th ed. Upper Saddle River, NJ: Prentice Hall, 2010.

五、課程內容 (Course Contents)
Solving linear equations 
Vector spaces and subspaces
Orthogonality 
Determinants 
Eigenvalues and eigenvectors 
Linear transformations 
Complex vectors and matrices 


六、成績考核 (Grading) 

Homework 20%, two midterm exams 50%, and final exam 30%.

 

趙啟超教授2010 - 2013年題庫練習專區

 

 

10102 工程
材料熱力學二
黃倉秀
倉秀哥為您點燃一盞材料熱力學的學習光明燈!!謝倉秀哥大愛無私地奉獻材料熱力學的講義, 幫助學弟妹有效率地學習。老師的講義已經整理好課堂上的內容,若是同學能自己動手記錄下課堂上的重點,配合老師的講義內容,相信更能事半功倍加深記憶。
 


【課程介紹】
       Course Description
 本課程先複習熱力學三大定律及各種熱力學函數,例如熱容量,entropy,焓及自由能等,從統計熱力學解釋entropy之微觀意義;熱力學函數的基本數學;介紹熱力學之平衡觀念及單元系統的相轉變o再討論氣體的混合,討論理想與真實溶液之性質,雙元相圖與自由能之關係,化學反應之平衡觀念,特別以固態材料系統為對象,探討其化學反應及相轉變所需考量之熱力學觀念o 

 

【指定用書】
     References 
*
 
 
【參考書籍】
    References 
* R.A. Swalin,"Thermodynamics of Solids", 2nd ed., 1972 
* R.T. DeHoff:"Thermodynamics in Materials Science", 1993 
 
 
【教學方式】
     Teaching Method
       * 課堂講授,討論,考試 
 
 
 
 【教學進度】 
     Syllabus 
  【第1週】 
     Ch.1~8 Review of fundamental Thermodynamics(I):
            1.Scope of Materials Thermodynamics
            2.Laws of Thermodynamics
            3.Definitions of thermodynamic functions
               and some important parameters
            4.Variation of V, S, H, G as a function of T, P.

  【第2週】  
     Ch.1~8 Review of fundamental Thermodynamics(II):
            1.Calculation of S, H, G and S, H, G
               for temperature changes at constant P
            2.Application of Gibbs-Helmholtz Eq.,
              Clapeyron Eq., Clausius-Clapeyron Eq
            3.G(T,P) for a single phase substance
               and two-phases equilibrium.

  【第3週】  
     Ch.1~8 Review of fundamental Thermodynamics(III):
            1.Thermodynamics of ideal and real gases
            2. Thermodynamics of mixing of ideal gases:
               definitions of partial molar quantities,
               calculations of
Smix, Umix, Hmix, Gmix
 
  【第4週】  
     Ch.9 Behavior of solutions(I):
            1.Raoult’s law and Henry’s law
            2.Activity of a component in solution
            3.Gibbs-Duhem equation
            4.Relation between G and  of binary solution
            5.Relation between ai,and ,GM
            6.Method of graphical determination of   from  GM

  【第5週】  
     Ch.9 Behavior of solutions(II):
            1.Properties of ideal solution
            2.Nonideal solution
            3.Application of Gibbs-Duhem equation (1-2).

  【第6週】  
     Ch.9 Behavior of solutions(III):
            1.Apllication of Gibbs-Duhem equation(3)
            2.Regular solution
            3.Non-regular solution

  【第7週】 
 
     Ch.9 Behavior of solutions(IV):
            1.Quasi-chemical model of solutions
            2.Calculation examples.

  【第8週】 
 
     Ch.10 Binary phase Diagrams
                and
GM (XB) curves(I): 
            1.GM (XB) curve of a homogeneous solution
            2. GM (XB) curve of a regular solution
            3.Citerior for phase stability in regular solution.

  【第9週】 
 
            1.Mid-term exam
            2. Ch.10 Binary phase Diagrams
                and
GM (XB) curves(II): Standard states
                and two-phases equilibrium.
 
  【第10週】  
      Ch.10 Binary phase Diagrams
               and
GM (XB) curves(III):
             1.Isomorphous phase diagram
             2.Binary phase diagrams with liquid
                and solid exhibiting regular solution

  【第11週】 
      Ch.10 Binary phase Diagrams
               and
GM (XB) curves(IV): 
             1.Eutectic phase diagrams
             2.Monotectic phase diagram
             3.Calculation examples.

  【第12週】 
 
      Ch.11 Reactions involving gases(I):
             1.Reaction equilibrium in gas mixture
               and equilibrium constant
             2.Effect of temperature on Kp
             3.Effect of total pressure on Kp.

  【第13週】 
 
      Ch.11 Reactions involving gases(II):
             1.Reaction equilibrium in SO2-SO3-O2 system
             2.To keep a constant pO2 through gas mixture
               of SO
2/SO3, CO/CO2, H2/H2O.

  【第14週】 
      Ch.11 Reactions involving gases(III):
               Calculation examples.
 
      Ch.12 Reactions involving gases
                and pure condensed phases(I):
              1.Reaction equilibrium in a system containing
                 pure condensed phases and gas phases. 
              2.Variation of “Standard Gibbs free energy change” with T.

  【第15週】 
 
      Ch.12 Reactions involving gases
               and pure condensed phases(II): 
              1.Ellingham Diagrams
              2.Stability of metals and metal-oxides.

  【第16週】 
 
      Ch.12 Reactions involving gases
                and pure condensed phases(III): 
              1.Effect of phase transition
              2.Stability of oxides in H2/H2O gas mixtures
              3.Nomographic scale of H2/H2O

  【第17週】
 
      Ch.12 Reactions involving gases and
               pure condensed phases(IV):

              1.Stability of oxides in CO/CO2 gas mixtures
              2.Upper limit of (pCO/pCO2) at a fixed T
              3.Calculation examples.

 

 

10102 工程
核能安全
李敏
核能是我的專業,教育是我的事業▕座擁全台唯一的核工科系,清大推出核工領域最熱血的「敏兒」-李敏教授!嚴肅但活潑的敏兒教授,以專業的核能知識,熱血的灌溉著清華學子們!想了解「核能」到底「有何能耐」嗎?想一窺敏兒教授熱情奔放的邏輯講解?
 
 
Review
Neutron Diffusion and Moderation, 
Nuclear Reactor Theory (2 hours)

Chapter 7  The Time Dependent Reactor  (12 hours)
7.1Classification of Time Problems
7.2Reactor Kinetics (4.5 hours)
7.3Control Rod and Chemical Shim (2.5 hours)
7.4Temperature Effect on Reactivity (1.5 hours)
7.5Fission Products Poisoning (2 hours)
7.6Core Properties during Lifetime (1.5 hours)

Chapter 8  Heat Removal from Nuclear Reactors (11 hours)
  8.1  General Thermodynamic Consideration (1 hour)
  8.2  Heat Generation in Reactors (1.5 hours)
  8.3  Heat Flow by Conduction (1.5 hours)
  8.4  Heat Transfer to Coolant (2 hours)
  8.5  Boiling Heat Transfer (2.5 hours)
  8.6  Thermal Design of a Reactor (2.5 hours)


Midterm Examination,  April 24th, Wednesday, 7:00 pm

Chapter 4  Nuclear Reactors and Nuclear Power (10 hours)
4.1Fission Chain Reactions
4.2Nuclear Reactor Fuel (2 hours)
4.3Non-Nuclear Components of Nuclear Power Plants (1.0 hours)
4.4Components of Nuclear Reactors (1.0 hours)
4.5Power Reactors and Nuclear Steam Supply System (4 hours)
4.6Nuclear Fuel Cycles (2 hours)
 
【指定用書】
John R. Lamarsh, Anthony J. Baratta,

“Introduction to Nuclear Engineering”, 3rd Edition, Prentice, Inc. 2001

【參考用書】
1.S. Glassstone& A. Sesonake, “Nuclear Reactor Engineering”,
4th Ed. Chapman & Hall, 1994
2.E.E. Lewis, “Nuclear Power Reactor Safety”, 1977

 

10102 工程
材料物理性質
陳福榮
老師上課語調與你的接收器頻率不對tone,越聽越不懂?艱澀的課程令人昏昏欲睡,抄的筆記更猶如鳳舞龍飛?別擔心,快到陳福榮教授的材料物理性質課程尋求高超魔法師...


【Week1】
Chap 1: Introduction

【Week2】
Chap 2: Wave Particle Duality

【Week3】
Chap 3 Schrodinger Enquation

【Week4】
Chap 4 Special cases for Schrodinger

【Week5】
Chap 5 energy Band in Crystal

【Week6】
Chap 6 Electrons in a Solid

【Week7】
Chap 7 Electrical Conduction in Meal and Alloy

【Week8】
Chap 8 Semiconductor

【Week9】
Chap 9 Ionic Conductivity

【Week10】
Chap 10 The optical constant

【Week11】
Chap 11 Atomic Theory of Optical Properties

【Week12】
Chap 12 Quantum Theory of Optical Properties

【Week13】
Chap 14 Magnetism
 

【Week14】
Chap 15 Magnetism- Classical theory

【Week15】
Chap 16 Quantum Theory of Magnetism

【Week16】
Chap 17 Thermal Property of Solid
10101 人文社會
社會心理學
陳舜文
博雅教育也是大學生必修的課程!由陳舜文教授講授的社會心理學,讓你在瞭解社會如何影響個體之餘,將你訓練出邏輯思考及表達的能力!陳教授同時也對「鄉民文化」瞭若指掌,與學生毫無代溝的溝通、同步地更新社會的變動,「社會心理學」尬「鄉民文化」就在....
 

一、課程說明(Course Description)
    社會心理學是探討人們如何知覺與認識社會世界、如何進行人際互動,以及社會情境之影響的學科。本課程之主要目的在於使同學:(1)瞭解社會心理學關心的基本議題,並瞭解重要的理論和概念。(2)思考與討論相關社會現象與經驗。


二、指定用書(Text Books)
《社會心理學》,揚智出版社 (tel: 02-8662-6826)。
Elliot Aronson, Timothy D. Wilson, Robin M. Akert原著。

 

三、參考書籍(References)
《路西法效應》(The Lucifer Effect: Understanding How Good People Turn Evil)。Philip Zimbardo著。孫佩妏、陳雅馨譯。商周出版社。
《電醒世界的人》(The Man Who Shocked the World: The Life and Legacy of Stanley Milgram)。Thomas Blass著。黃澤洋譯。遠流出版社。
《日常生活中的自我表演》(The Presentation of Self in Everyday Life)。Erving Goffman著。徐江敏、李姚軍譯。桂冠出版社。
《囚犯的兩難》(Prisoner’s Dilemma:
John von Neumann, Game Theory, and the Puzzle of the Bomb)。William Poundstone著。葉家興譯。左岸文化。
《誰說人是理性的》(Predictably Irrational)。Dan Ariely著。周宜芳、林麗冠、郭貞伶譯。天下文化。
《錯不在我?》(Mistakes were made "but not by me": Why we justify foolish beliefs, bad decisions,
and hurtful acts.)。Carol Tavris & Elliot Aronson 著。潘敏譯。繆思出版社。

四、教學方式(Teaching Method)

課堂講授、影片觀賞、參與討論


五、教學進度(Syllabus)

1.社會心理學簡介
2.社會心理學研究方法
3.社會認知:我們如何建構社會世界
4.自我瞭解:我是什麼樣的人?
5.社會知覺:我們如何瞭解他人
6.認知失調:國王的新衣?
7.態度形成與改變:廣告的威力
8.從眾與服從:好人也會做出壞事?
9.團體歷程:三個臭皮匠勝過一個諸葛亮?
10.歧視與偏見
11.親密關係:愛情有什麼道理
12.助人與利他行為:助人為快樂之本?
13.攻擊與暴力行為


六、成績考核(Evaluation
)
     期中考與期末考各一次,各佔總分25%。期末報告佔25%。網路論壇與課堂參與佔25%。

10101 工程
嵌入式系統概論
金仲達

中國製造業首富何享健先生曾說:成功無法複製、失敗可以避免。迎戰職場,想取得先機學習軟體資訊、武裝硬體設備嗎?金仲達教授提供嵌入式系統概論專業課程飛奔進入NTHU OCW網站,update自己,不落人後!

 

Lectures:
1.    Outline
2.    Embedded software development
3.    Introduction to MSP430
4.    Timers and clocks
5.    MSP430 instruction set architecture
6.    Interrupt
7.    Analog-to-digital conversion
8.    Low-power 
optimization
9.    Linux basics
10.   Makefile


Labs:

•    Lab 1: LaunchPad and setup
•    Lab 2: Clock system
•    Lab 3: Timer and interrupt
•    Lab 4: Analog-to-digital converter
•    Lab 5: Serial communication
•    Lab 6: Low-power optimization
•    Lab 7: Development board setup 
and cross-compiling
•    Lab 8: Boot-loader
•    Lab 9: Non-OS embedded application
•    Lab 10: Linux kernel and root file system
•    Lab 11: Kernel modules and drivers
•    Lab 12: Communication between LaunchPad and development board

 

【參考用書】
1.David E. Simon, An Embedded Software Primer, Addison Wesley, 1999. 
2.Wayne Wolf,Computers as Components: Principles of Embedded Computing System Design, Morgan Kaufmann, 2001.
3.Peter Marwedel, Embedded System Design, 2nd edition, Springer, 2006.

10101 自然科學
當代認知神經科學:腦與心智
焦傳金
跟著金導遊,探索心世界! 愛、怨、情、愁 都有心,但是他們卻全非由「心」而起!究竟,我們的心在哪裡?這個問題,就讓清大的焦傳金教授回答你!想要抓住「心」,就要先了解「腦」和「心」的關係!讓傳金教授帶領你遨遊「腦」世界,徜徉「心」天堂...
 
 

 一、課程說明(Course Description)
      認知神經科學(Cognitive Neuroscience )是一門新興的研究領域,主要是探索腦與心智(Brain and Mind)的關連性。從感覺與知覺(Sensation and Perception)、學習與記憶(Learning and Memory)、注意力與情緒(Attention and Emotion)、同理與 厭 惡(Empathy and Disguise)、決策與執行(Decision-making and Execution 、乃至意識(Consciousness)的產生,都是認知神經科學的範疇。    瞭解這些認知行為背後的神經科學不僅是本世紀最重要的一項科學探索,也與每個人的有密切的關係。例如:神經經濟學(Neuroeconomics)與消費者行為及市場調查有關,退化性神經疾病(Neurodegenerative disorders)與老年失智症有關。    在本課程中,我們將依序探討認知神經科學中的主要課題,重點在於介紹最新的研究發展,並討論這些科學發現對個人及社會的衝擊。本課程將以科學人雜誌過去九年所發表有關認知神經科學的文章為主,並以影片及期刊論文為輔,使無心理學或生物學背景的學生亦可學習此一課程。

 

二、參考書籍(References)
Cognitive Neuroscience: The Biology of the Mind (Third Edition) by Michael S. Gazzaniga, Richard B. Ivry, and George R. Mangun (2008, W. W. Norton & Company)



三、教學方式(Teaching Method)

科學人雜誌 、影片、期刊論文


四、教學進度(Syllabus)
第1週: 腦與心智簡介
第2週:感覺&知覺 I
第3週:感覺&知覺 II
第4週:感覺&知覺 III
第5週:學習&記憶
第6週: 睡眠&夢
第7週:報償&成癮
第8週:溝通&語言
第9週: [影片欣賞&討論] 繳交期中報告
第10週: 理性&感性
第11週:選擇&決策
第12週: 同理心
第13週: 智力&創造力
第14週: 發育&可塑性
第15週: 老化&疾病
第16週: 腦科學&科技&社會
第17週: 意識&自由意志
第18週: [影片欣賞&討論] 繳交期末報告


五、成績考核(Evaluation)
期中&期末報告各佔 35%,隨堂心得報告佔 30%

10101 工程
電磁學
黃衍介

This course is to introduce the basic concepts on electromagnetics, covering topics of transmission line, electrostatics, magnetostatics, time-varying field, plane waves etc. To be consistent with the modern trend of electrical engineering

 

1.General Information 
This course is to introduce the basic concepts on electromagnetics, covering topics of transmission line, electrostatics, magnetostatics, time-varying field, plane waves etc. To be consistent with the modern trend of electrical engineering, I bring forward the transmission line to the beginning of the lecture. The content of transmission line is mostly adopted from the textbook by Ulaby. However, the same concepts are also given in the textbook by Cheng.  This course will be lectured mostly in English and slightly in Chinese for clarity. 

 

2.Textbook 
David K.Cheng, Field and Wave Electromagnetics 2nd Ed., Addison Wesley,1989.  


3.Reference book 
Fawwaz T.Ulaby, Fundamentals of Applied Electromagnetics 6th Ed, PEARSON Prentice Hall, 2007. (新月圖書,東華書局代理) 
 
 
4.Grading Policy
Homework 20% (late homework not accepted) 
Weekly quiz (open books,notes)* 20%(will become the weighting factor for final score adjustment) 
two midterm exams 20% x 2 
one final exam 20% 
* weekly quiz includes those lectured, to be lectured, or assigned in homework. 

 
5.Course Handouts
Bound copies will be available at 水木書苑 shortly before the beginning of the semester.. Updates can be found on http://www.hope.nthu.edu.tw. The password to access the course website will be announced by the teaching assistant.  

 
6.Course Contents
Introduction, transmission line, vector  calculus, electrostatics, magnetostatics, 
time-varying field, electromagnetic waves, EM wave at boundaries, radiation and antenna (if time allows0.

 

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