#### 所有課程

10002 工程

【課程說明】
Course Description
To describe the motion of particles and rigid bodies under force is applied. Kinematics and Kinetics of particles and rigid bodies are introduced.

【指定用書】
Textbooks
 ♠ Vector Mechanics for Engineers - Dynamics by Beer, Johnston, Jr. and Clausen  9th Ed in SI Units

【參考書籍】
References
 ♠ Engineering Mechanics - Dynamics by Meriam and Kraige ♠ Dynamics by Tongue and Sheppard

【教學進度】
Syllabus
 1 Kinematics of Particles 2 Kinetics of Particles: Newton's Second Law 3 Kinetics of Particles: Energy and Momentum Method 4 System of Particles 5 Kinematics of Rigid Bodies 6 Plane Motion of Rigid Bodies: Forces and Accelerartion 7 Plane Motion of Rigid Bodies: Energy and Momentum Methods

10002 工程

 ﻿【課程說明﻿】     Course Description To understand how a computer system work. Emphasis will be placed on 1. What characterizes the performance of a computer 2. Instruction set design and its interaction with compiler 3. Basic building blocks: I/O, Memory, Datapath, Control 4. Pipelined datapath

 【指定用書﻿】       Text Books P.A.Patterson and J.L. Hennessy, Computer Organization and Design: The Hardway/Software Interface, fourth Ed., Morgan Kauffmann, 2010.

 【教學進度﻿】         Syllabus Course outlines 1 Computer abstractions and technology 2 The role of performance 3 Instructions:language of the machine 4 Arithmetic for computers 5 The processor: datapath and control 6 Enhancing performance with pipelining 7 Large and fast: exploiting memory hierarchy 8 Interfacing processors and peripherals

10002 工程

【課程說明】
Course Description
 ♠ Introduce three basic processes of heat transfer and relevant  applications

【指定用書】
Text Books

【教學進度】
Syllabus

 Chapter 1 Introduction ♠ PART I Chapter 2 Introduction to Conduction Chapter 3 One-Dimensional, Steady-State Conduction Chapter 4 Two-Dimensional, Steady-State Conduction Chapter 5 Transient Conduction ♠﻿ PART II Chapter 6 Introduction to Convection Chapter 7 External Flow Chapter 9 Free Convection ♠﻿ PART III﻿ Chapter 12 Radiation: Processes and Properties ♠ Final Exam
10001 自然科學

【教科書】
Textbook

Generally, the edition of the textbook should be not too old in order to follow the footsteps of progress in science. After finishing reading some new textbooks, I found that Thermal Physics by Kittel and Kroemer is really classic and suitable for me. Of course it has nothing to do with that the authors teach in UC. And it also absolutely has nothing to do with the fact that Kroemer teaches in wonderful Santa Barbara.

【背景知識】
Pre-requisite

 ♠ General Physics: Temperature, entropy and heat. Bolzmann distribution. Stationary states (energy levels) in quantum physics. Applied Math: Partial differentiation. Probability theory.

It doesn’t require much background information to learn Thermal and Statistical Physics, if you didn’t pay much attention in class before, it is your chance to start all over. And it is definitely not an easy course because there are so many new concepts. You need much time to understand the concepts and do the assignments at the back of the textbook, or it has slight chance for you to catch up in class.

【上課進度】
Syllabus

 ﻿♠ 下列為預估上課進度與內容，實際進度將視上課狀況調 整，請定期瀏覽網頁上的最新消息與課程更新。

 ﻿Week 1 Sep 12 (Mon) 中秋節 ﻿Mid-Autumn Festival (Holiday) ﻿Sep 14 (Wed) L1: multiplicity (Chap 1) ﻿Week 2 ﻿Sep 19 (Mon) L2: binary model system (Chap 1) ﻿Sep 21 (Wed) L3: sharpness of multiplicity function (Chap 1) ﻿ Week 3 Sep 26 (Mon) L4: most probable configuration (Chap 2) Sep 28 (Wed) ﻿Teacher's Day﻿ ﻿Week 4 Oct 3 (Mon) L5: temperature (Chap 2) Oct 5 (Wed) L6: entropy (Chap 2) Week 5 Oct 10 (Mon) ﻿National Day﻿ Oct 12 (Wed) L7: Boltzmann factor (Chap 3) Week 6 Oct 17 (Mon) L8: partition function (Chap 3) Oct 19 (Wed) L9: Helmholtz free energy (Chap 3) ﻿﻿﻿Week 7﻿ ﻿﻿Oct 24 (Mon) L10: Sackur-Tetrode equation (Chap 3) Oct 26 (Wed) 1st midterm (Chap 1-3) Week 8 Oct 31 (Mon) ﻿Exam questions review ﻿ Nov 2 (Wed) L11: Planck radiation law (Chap 4) Week 9 Nov 7 (Mon) L12: electrical noise (Chap 4) Nov 9 (Wed) L13: phonon and Debye theory (Chap 4) Week 10 Nov 14 (Mon) L14: chemical potential (Chap 5) Nov 16 (Wed) Sports day (Holiday)

10001 工程

 一、課程說明 (Course Description) 人類應不應該繼續使用核能發電,在世界各國都是一個頗具爭議的問題。在國內，是否應該興建核四廠已經爭議了近二十年，核四成了政治的圖騰，成為政黨興衰與個人意志力的象徵。民進黨執政後，以迅雷不及掩耳的方式，宣佈停建核四，接著在在野黨的脅迫下，恢復核四的興建，一停一續之間，衝擊了人們對執政黨的信心，成為造成經濟衰退的最後一根壓死駱駝的稻草。林義雄先生對核四公投的堅持，也直接的促成了公投法的通過。為了對環保團體有所交待，張俊雄院長在宣佈核四復工時，同時聲稱推動”非核家園”政策。七年來，未見政府依程序，將”非核家園”列為正式之國家政策。  2003年，國際化石燃料價格開始飆漲；2005年2月，抑制二氧化碳排放的京都議定書生效；已開發國家開始積極尋求可以替代化石燃料產生大規模動力的能源。核能發電成本較不易受到國際能源價格波動影響，以及不排放二氧化碳的兩項重要特質，重新獲得該有的重視。  核能發電所使用的燃料體積小，運輸貯存方便；核能發電成本中，燃料成本所佔的比例較低，故其發電成本較穩定，不易受到國際燃料價格的飆漲影響而有大幅度的波動。因此，能源依賴進口國家均將核能視為準自產能源。台灣超過99%的能源依賴進口。  核能發電能減少產生二氧化碳，行政院第二十五次科技顧問會議（94年4月22～23日）中，美國麻省理工學院物理系教授莫里茲博士明白的指出：「如果在考慮二氧化碳減量時，不考慮核能，及無法為這個問題找到解決方案（If you exclude nuclear power from the solution, there is no solution）」。世界各主要國家（如美國、英國、法國、俄國、加拿大、日本、韓國、中國大陸）都認同此項看法，也都以核能為控制二氧化碳排放的主要工具。三年前，馬總統剛接掌政權時，經濟部發表之「能源安全策略報告」 中，擬定二氧化碳減量目標為「於2016至2020年回到2008年排放 量，並於2025年回到2000年排放量」，2000年的排放量為214.5百萬噸。馬總統5月19日在台南大學和近300名大學生座談，274名學生支持減碳優先，只有11名學生認為廢核優先。  全力發展再生能源是無悔的政策，但我們必須認知下面的現實。再生能源最大的問題為能量密度非常低，需有廣大的土地面積來收集。台灣人口占世界之0.3％，土地面積僅占世界之0.06％，而我們的能源消耗為全球之1％，以單位國土面積耗能來說，台灣排名世界第一，是美國的10倍、日本的近2倍、德國的近3倍、荷蘭的1.3倍。

 二、參考書籍 (References) Richard Wolfson, "Nuclear choice, a Citizen Guide to Nuclear Technology,",  The MIT Press, 1993 李敏、黃四昌”核能電廠安全及輻射防護” 科學月刊 2011 二月號, 四月號, 五月號 數篇介紹核能,日本福島核子事故的文章

 三、教學方式 (Teaching Method) 課堂講授，問題討論及電廠參觀（尚不確定，待安排）

 四、教學進度 (Syllabus) 能 源 4小時 核能發電基本知識介紹 10小時 核能發電簡史與現況 核能發電原理 核電廠安全設計 重大核電廠事故回顧 輻射與輻射防護 8小時 輻射與物質作用 輻射劑量與生物效應 重大輻射安全事件回顧 核廢料 4小時 低階核廢棄物 使用過核燃料與高階核廢棄物 核能發電爭議 4 小時

http://pnn.pts.org.tw/main/?p=25573

10001 工程

【課程說明】
Course Description
 ♠ 本課程為為兩學期的課程，應用力學一級二。 ♠ 本課程為固體力學之基礎，包含靜力學及動力學，以質點或剛體探討靜力平衡問 題及運動現象。內容詳見所附資料。

【指定用書】
Textbooks
 ♠ Vector Mechanics for Engineers-Statics ♠ Vector Mechanics for Engineers-Dynamics by Beer, Johnston, Jr., Mazurek and Eisenberg  9th Ed. in SI Units (2010)

【參考書籍】
References
 ♠ Engineering Mechanics - Statics/Dyanmics by Hibbeler ♠ Engineering Mechanics - Statics/Dynamics by Riley and Sturges ﻿♠﻿ Engineering Mechanics - Statics/Dyanmics by Meriam and Kraige ﻿♠﻿ Engineering Mechanics - Statics/Dynamics by Tongue and sheppard

【教學方式】
Teaching Method
 ♠ 上課講解，作業，助教晚上協助學生解答疑問。 ♠ 上課時並以口頭問答方式了解學生學習情況。

【教學進度】
Syllabus
 靜力學及動力學共18章，上學期應用力學一會上完靜力學10章及動力學11及12章，平均分配於整個學期，兩次期中考及一次期末考，另有不定期平常考。講授內容如下︰ 1 Introduction 2 Statics of Particles 3 Rigid Bodies : Equivalent System of Forces 4 Equilibrium of Rigid Bodies 5 Distributed Forces : Centroids and Centers of Gravity 6 Analysis of Structures 7 Forces in Beams and Cables 8 Friction 9 Distributed Forces : Moments of Inertia 10 Method of Virtual Work 11 Kinematics of Particles 12 Kinetics of Particles : Newton’s Second Law

10001 工程

Course Description
The objective of this course is to provide the basic concepts of scientific computing, with applications to diversified areas including simple games, page rank, fractals, linear equations, interpolation, ordinary differential equations, and so on. We shall emphasize the use of MATLAB as the tool for such scientific computing and visualization.

Prerequisites
 ♠ Calculus, Linear algebra

Textbooks
 ♠ MATLAB程式設計【進階篇】 by Roger Jang MATLAB Programming【Beginner】 by Roger Jang ♠ Experiments with MATLAB by Cleve Moler ♠ Numerical computing with MATLAB by Cleve Moler

References
 ♠ MATLAB Programming【Advanced】 by Roger Jang

Course format
We shall have lecture and lab sessions. The TA will lead the lab session and students are expected to finish the assignments in the lab sessions. The time for the lab sessions is to be determined in the class.

Syllabus
We shall follow the contents of the books by Cleve Moler closely.

10001 自然科學

Tsinghua University, Taiwan by the UN General Assembly cloud Tsinghua classic courses for you to build a strong faculty and Information Engineering background, allowing you to information UPDATE, win at the starting point!

Course Description
 ♠ 普通化學(General Chemistry) 一般化學的介紹,包括無機,生化,有機,物化, 分析之基本課程 Introduction of Basic Chemistry, including Inorganic Chemistry, Biochemistry, Organic Chemistry, Physical Chemistry

Textbooks

References

Teaching Method
 ♠ 以 Power Point 講解並用黑板輔助說明 Give Lectures with PPTs and illustrate with blackboard ♠ 每章會指定習題做練習, 解答將會公佈於數位學習系統 (e-learning) Appointed exercises for assignments each chapter. The answer will update to e-learning system ♠ 考試前將安排時間由助教做習題講解 TA will arrange time before the exam to explain the exercises

Syllabus
 1. Introduction to the Study of Chemistry 2. The Components of Matter - Nomenclature of Chemical Compounds 3. Stoichiometry of Formulas and equations 4. Types of Chemical Reactions 5. Gases and the Kinetic-Molecular Theory 6. Thermochemistry 7. Atomic Structure and Periodicity 8. Bonding：General Concepts 9. Covalent Bonding：Orbitals 10. Liquids and Solids 11. Properties of Solutions

10001 自然科學

 Course outline The course will be given on the basis of 3 hours a week (Tuesday, 10~12 AM and Thursday, 11~12 AM) in 綜合三館 room 203. The materials for teaching will be regularly posted on the course website (http://www.stat.nthu.edu.tw/~swcheng/Teaching/math2810/). This course introduces students to useful and interesting ideas of the mathematical theory of probability, and to a number of applications of probability to a variety of fields including genetics, economics, geology, business, and engineering. The theory developed together with other mathematical tools such as combinatorics and calculus are applied to everyday problems. Concepts, calculations, and derivations are emphasized. Topics include the basic results and methods of both discrete and continuous probability theory: conditional probability, independent events, random variables, jointly distributed random variables, expectation, variance, covariance, and limit theorems.

 Textbook Ross, S. (2009), A First Course in Probability, 8th edition,  Pearson Prentice Hall.

References

 1 Ross, S. and Pekoz E. (2007), A Second Course in Probability, ProbabilityBookstore.com. 2 Feller, W. (1967), An Introduction to Probability Theory and Its Applications, Volume I, 3rd edition, John Wiley & Sons. 3 Feller, W. (1971), An Introduction to Probability Theory and Its Applications, Volume II, 2nd edition, John Wiley & Sons.

Prerequisites
 * ﻿Knowledge of Calculus.﻿

09902 自然科學

【課程大綱】
Course Description

 ♠ Ring Theory ♠ ﻿ Field Theory ﻿

【指定用書
Textbook
 ♠ ﻿

【教學方式】
Teaching Method

 ♠ 課堂講授 ♠ Lecturing in the class

【6/21 @ 109學年度第2學期休學申請截止Last Day to Withdraw from School】   ♠   【6/28 @ 教師送繳應屆畢業生109學年度第2學期成績截止Deadline for 2021 Spring Grade Submission for Graduating Students】   ♠   【6/28 @ 暑假開始Summer Vacation Begins】   ♠   【6/28 @ 暑期班選課及繳費開始(至7月9日止)Course Selection and Fee Paying Begins for Summer Session (6/28-7/9)】   ♠   【7/1 @ 暑期班上課開始Summer Session Begins】   ♠   【7/5 @ 110學年度暑碩專班上課開始、註冊日、休退學及畢業生免繳學雜費截止2021 Summer In-service Master Program Begins; Registration (2021 Summer In-service Master Program)】   ♠   【7/9 @ 教師送繳非應屆畢業生109學年度第2學期成績截止Deadline for 2021 Spring Grade Submission】   ♠   【7/23 @ 110學年度暑碩專班休退學及畢業生退2/3學雜費(學分費)截止Last Day for 2/3 Tuition and Fees Refunded(graduates or full withdrawal of 2021 Summer In-service Master Program)】   ♠   【7/30 @ 109學年度第2學期結束2021 Spring Semester Ends】   ♠   109學年度【暑期學生讀書會】開始申請囉~至7/15止!   ♠   【110-1教師社群】即日起開始申請~110/7/31止   ♠   【6/15資安漏洞預警】Google Chrome瀏覽器存在安全漏洞，請儘速確認並進行更新！   ♠   【6/15-7/2人事室 問卷調查】110年員工子女托育需求及課後照顧需求調查   ♠   【7/26 人事室】科技部111年度(第60屆)補助科學與技術人員國外短期研究案!   ♠