課程名稱 |
普通化學丙 General Chemistry (c) |
開課學期 |
99-2 |
授課對象 |
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授課教師 |
林英智 |
課號 |
Chem1009 |
課程識別碼 |
203 101C0 |
班次 |
03 |
學分 |
3 |
全/半年 |
半年 |
必/選修 |
選修 |
上課時間 |
星期一3,4(10:20~12:10)星期四3,4(10:20~12:10) |
上課地點 |
普101普103 |
備註 |
詳閱化學系選課須知。兼通識A7*。。A7*:物質科學領域。可充抵通識 總人數上限:165人 |
Ceiba 課程網頁 |
http://ceiba.ntu.edu.tw/992gchemmech |
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 |
課程大綱
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課程概述 |
本課程將針對工程科系的學生,從化學基本原理的闡述,了解生活中的科技與自然現象背後的化學原理;進一步連接工程專業將會碰觸的材料之結構, 電性, 與化性。先介紹化學是物質的基本科學,讓學生認知物質的基本粒子- 原子,從而推演到分子、固體至材料。從金屬原子的堆疊結構說明金屬延展性,以及合金的製備、組成與性質。從化學鍵、分子軌域、到能帶,說明導體、半導體材料的導電性,p-n junction, 二極體的整流與發光應用。介紹熱力學三定律以及利用自由能來判斷反應自發的可能性。介紹各種電池材料、燃料電池、金屬的腐蝕以及防腐蝕、冶金技術。 |
課程目標 |
從化學的基本原理介紹材料相關的化學,提升學生在日常生活與將來專業領域中的化學知識。 同時,培養學生以英文學習進深化學科目的能力。 |
課程要求 |
本課程的授課方式,除了教師課堂上的講演之外,「自主學習」亦是課程的一部份,目的是引導學生更多元化的學習,故此課堂上會指定作業,並以多種形式(繳交作業、小組討論、或隨堂小考),驗收學生「自主學習」的成果。除了閱讀教科書,回家作業亦包含課後的習題練習;此外會有不定期、不公佈的小考,隨時確認學生的吸收能力。 |
預期每週課後學習時數 |
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Office Hours |
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指定閱讀 |
Lawrence S. Brown and Thomas A. Holme,
Chemistry for Engineering Students, 2nd edition 2011 |
參考書目 |
Mary Jane Shultz
Chemistry for Engineers 2007 |
評量方式 (僅供參考) |
No. |
項目 |
百分比 |
說明 |
1. |
上課態度成績 |
100% |
評量同學在上課時的上課態度與出席率,上課時的態度包括:秩序(上課聊天影響老師教學或同學的學習….等),評分的方式:最初每個人學習態度為100%,再依同學的上課態度來評分,可能為80%、50%、30%....等,而同學最後總成績為三次考試再乘以你學習態度成績,例如:同學考試最後總成績為80分而上課態度成績為70%,學期總成績為80 x 70 % = 56分
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週次 |
日期 |
單元主題 |
第1週 |
2/21,2/24 |
Review on Chapters 1-4
Chapter 1 Introduction to Chemistry
1.3 The Science of Chemistry: Observations and Models
1.4 Numbers and Measurements in Chemistry
1.5 Problem Solving in Chemistry and Engineering
1.6 Insight into Material Selection and Bicycle Frames
Chapter 2 Atoms and Molecules
2.3 Ions
2.4 Compounds and Chemical Bonds
2.5 The Periodic Table
2.6 Inorganic and Organic Chemistry
2.7 Chemical Nomenclature
Chapter 3 Molecules, Moles, and Chemical Equations
3.3 Aqueous Solutions and Net Ionic Equations
3.6 Insight into Explosives and Green Chemistry
Chapter 4 Stoichiometry
4.1 Insight into Gasoline and Other Fuels
4.6 Insight into Alternative Fuels and Fuel Additives
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第2週 |
2/28,3/03 |
Chapter 5 Gases
5.1 Insight into Air Pollution
5.2 Pressure
5.3 History and Application of the Gas Law
5.4 Partial Pressure
5.5 Stoichiometry of Reactions Involving Gases
5.6 Kinetic-Molecular Theory and Ideal Versus Real Gases
5.7 Insight into Gas Sensors
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第3週 |
3/07,3/10 |
Chapter 6 The Periodic Table and Atomic Structure
6.1 Insight into Incandescent and Fluorescent Lights
6.2 The Electromagnetic Spectrum
6.3 Atomic Spectra
6.4 The Quantum Mechanical Model of the Atom
6.5 The Pauli Exclusion Principle and Electron Configurations
6.6 The Periodic Table and Electron Configurations
6.7 Periodic Trends in Atomic Properties
6.8 Insight into Modern Light Sources: LEDs and Lasers
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第4週 |
3/14,3/17 |
Chapter 7 Chemical Bonding and Molecular Structure 7.1 Insight into materials for Biomedical Engineering
7.2 The Ionic Bond
7.3 The Covalent Bond
7.4 Electronegativity and Bond Polarity
7.5 Keeping Track of Bonding: Lewis Structure
7.6 Orbital Overlap and Chemical Bonding
7.7 Hybrid Orbitals
7.8 Shapes of Molecules
7.9 Insight into Molecular Scale Engineering for Drug Delivery
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第5週 |
3/21,3/24 |
Chapter 8 Molecules and Materials 8.1 Insight into Carbon
8.2 Condensed Phases-Solids
8.3 Bonding in Solids: Metals, Insulators, and Semiconductors
8.4 Intermolecular Forces
8.5 Condensed Phases- Liquids
8.6 Polymers
8.7 Insight into The Invention of new Materials
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第6週 |
3/28,3/31 |
3/31 First midterm (Chapters 5,6,7,8) |
第7週 |
4/04,4/07 |
Chapter 9 Energy and Chemistry 9.1 Insight into Energy Use and the World Economy
9.2 Defining Energy
9.3 Energy Transformation and Conservation of Energy
9.4 Heat Capacity and Calorimetry
9.5 Enthalpy
9.6 Hess’s Law and Heats of Reactions
9.7 Energy and Stoichiometry
9.8 Insight into Batteries
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第8週 |
4/11,4/14 |
Chapter 10 Entropy and the Second Law of Thermodynamics 10.1 Insight into Recycling of Plastics
10.2 Spontaneity
10.3 Entropy
10.4 The Second Law of Thermodynamics
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第9週 |
4/18,4/21 |
Chapter 10 Entropy and the Second Law of Thermodynamics 10.5 The Third Law of Thermodynamics
10.6 Gibbs Free Energy
10.7 Free Energy and Chemical Reactions
10.8 Insight into the Economics of Recycling
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第10週 |
4/25,4/28 |
Chapter 13 Electrochemistry 13.1 Insight into Corrosion 13.2 Oxidation-Reduction Reactions and Galvanic Cells 13.3 Cell Potentials 13.4 Cell Potentials and Equilibrium 13.5 Batteries |
第11週 |
5/02,5/05 |
Chapter 13 Electrochemistry 13.6 Electrolysis 13.7 Electrolysis and Stoichiometry 13.8 Insight into Corrosion Prevention |
第12週 |
5/09,5/12 |
5/12 Second midterm (Chapters 9,10,13 and review on 5-8) |
第13週 |
5/16,5/19 |
Chapter 11 Chemical Kinetics 11.1 Insight into Ozone Depletion 11.2 Rates of Chemical Reactions 11.3 Rate Laws and the Concentration Dependence of Rates 11.4 Integrated Rate Laws |
第14週 |
5/23,5/26 |
Chapter 11 Chemical Kinetics 11.5 Temperature and Kinetics 11.6 Reaction Mechanisms 11.7 Catalysis 11.8 Insight into Tropospheric Ozone |
第15週 |
5/30,6/02 |
Chapter 12 Chemical Equilibrium 12.1 Insight into Concrete Production and Weathering 12.2 Chemical Equilibrium 12.3 Equilibrium Constants 12.4 Equilibrium Concentrations 12.5 LeChatelier’s Priciple 12.6 Solubility Equilibria 12.7 Acid and Bases 12.8 Free Energy and Chemical Equilibrium 12.9 Insight into Borates and Boric Acid |
第16週 |
6/06,6/09 |
Chapter 14 Nuclear Chemistry 14.1 Insight into Cosmic Rays and Carbon Dating
14.2 Radioactivity and Nuclear Reactions
14.3 Kinetics of Radioactive Decay
14.4 Nuclear Stability
14.5 Energetic of Nuclear Reactions
14.6 Transmutation, Fission, and Fusion
14.7 The Interaction of Radiation and Matter
14.8 Insight into Modern Medical Imaging Methods
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第17週 |
6/13,6/16 |
Chapter 0 Coordination Chemistry Transition Metal complexes, Magnetism, Gems amd color. |
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