1. Physical properties of solution (a) Types of solutions (b) The kinetic molecular view of the solution process (c ) Concentration units (d) The effect of temperature on solubility (e) The effect of pressure on solubility of gases (f) Colligative properties of nonelectrolyte solutions and electrolyte solutions (g) Colloids (h) Chemistry in action: ※ The killer lake ※ Desalination 2. Chemical Kinetics: (a) The rate of a reaction (b) The rate law (c ) The relation between reactant concentration and time. (d) Activation energy (e) Reaction mechanism (f) Catalyst (g) Chemistry in action: ※ Determining the age of the Shround of Turin ※ Femtochemistry. 3. Chemical equilibrium (a) The concept of equilibrium and the equilibrium constant (b) Writing equilibrium constant expressions (c ) The relationship between chemical kinetics and chemical equilibrium (d) Factors that effect chemical equilibrium (e) Chemistry in action: ※ Life at high altitudes and hemoglobin production ※ The Haber process 4. Acids ad Bases (a) Bronsted acids and bases (b) pH—A measure of acidity (c ) Strength of acids and bases (d) Weak acids and weak bases (e) The conjugate acids and conjugate bases (f) Molecular structure and strength of acids (g) Lewis acids and bases 5. Acid-Base Equilibria and Solubility Equilibria The common ion effect (i) Buffer solution (j) Acid-base titration and indicator (k) Solubility equilibria (l) pH and solubility (m) Application of the solubility product principle to qualitative analysis (n) Chemistry in action: ※ Antacids and the pH balance in your stomach ※ Maintaining the pH of blood ※ How an eggshell is formed 6. Chemistry in the atmosphere (a) Earth’s atmosphere (b) Phenomena in the outer layers of the atmosphere (c ) Depletion of ozone in the stratosphere (d) Volcanoes (e) The greenhouse effect (f) Acid rain (g) Photochemical smog (h) Indoor pollution 7. Electrochemistry: (a) Redox reaction (b) Galvanic cell (c ) Standard reduction potentials (d) Spontaneity of redox reaction (e) The effect of concentration on cell Emf (f) Batteries (g) Corrosion (h) Electrolysis (i) Chemistry in action: ※ Bacteria power 8. Nuclear Chemistry (a)The nature of nuclear reaction.(b) Nuclear stability. (c)Nuclear binding energy. (d)Natural radioactivity. (e)Nuclear transmutation. (f)The transuranium elements. (g)Nuclear fission.(h) Nuclear fusion. (i) Uses of isotopes. (j)Biological effects of radiation.
教學目標Course Objectives
認識化學之各種基礎理論,及學習閱讀科學類文章,做為以後化學相關科目之基礎。1‧ 由理論與應用之認知,激發科學之思維模式。 2‧ 認識基本化學原理在生命科學、生態環境、醫藥及科技產物之關聯性。 3‧ 為後續課程有機化學、生物化學、及醫學專業課程的基礎教育。普通化學為研究有機化學,生物化學,‧‧等各種化學之基礎。課程內容包含化學之基本知識及化學原理之應用。普化課程主要有物質及能量之基本概念,計量化學,反應分類,化學健結,熱化學,聚合物,分離技術及鑑定方法,大氣中的化學反應,能源,‧‧‧作為學習有機化學,生物化學‧‧等之基礎。將化學原理應用於日常生活,醫療及改善生活環境。
This class will let students understand the chemistry of basic theory, and learn how to read the article. It is the basis of chemical-related subjects.
先修科目Prerequisites
無
NO
教學方式Teaching Methods
評量方式Assessment
1.平時測驗。2. 作業繳交成績。3. 期中考成績。 4. 期末考成績。
參考書目Reference
1.John McMurry and Mary E.Castellion:4th Edition,Chemistry, 2005.
2. Raymond Chang:Chemistry, first editionn , 2008.
3. Petrucci. ,Harwood,Herring andMadrura:General Chemistry, 9th Edition, 2007.
4. Martin S. Silberberg:Chemistry-The Molecular Nature of Matter and Change, 4th Edition, 2006.
5. Joesten M.D., Wood J.L. and Castellion M. E. : World of Chemistry 3nd Edition, 2004.
6. Moore, Stanitski, Jurs : Chemistry 3th eEdition, 2005.
7. 期刊:化學 (中國化學會發行)。
8.化學醫藥與社會:吳嘉麗 著(中國化學會出版)。
教學進度Course Schedule
2014/02/20 Physical properties of solution
(a) Types of solutions
(b) The kinetic molecular view of the solution process
(c ) Concentration units
(d) The effect of temperature on solubility
Physical properties of solution
(a) Types of solutions
(b) The kinetic molecular view of the solution process
(c ) Concentration units
(d) The effect of temperature on solubility
林慧怡(Lin Hui-Yi) 2014/02/27 (e) Reaction mechanism
(f) Catalyst
(g) Chemistry in action:
※ Determining the age of the Shround of Turin
※ Femtochemistry.
(e) Reaction mechanism
(f) Catalyst
(g) Chemistry in action:
※ Determining the age of the Shround of Turin
※ Femtochemistry.
林慧怡(Lin Hui-Yi) 2014/03/06 Chemical Kinetics:
(a) The rate of a reaction
(b) The rate law
(c ) The relation between reactant concentration and time.
(d) Activation energy
Chemical Kinetics:
(a) The rate of a reaction
(b) The rate law
(c ) The relation between reactant concentration and time.
(d) Activation energy
林慧怡(Lin Hui-Yi) 2014/03/13 Chemical equilibrium
(a) The concept of equilibrium and the equilibrium constant
(b) Writing equilibrium constant expressions
(c ) The relationship between chemical kinetics and chemical equilibrium
Chemical equilibrium
(a) The concept of equilibrium and the equilibrium constant
(b) Writing equilibrium constant expressions
(c ) The relationship between chemical kinetics and chemical equilibrium
林慧怡(Lin Hui-Yi) 2014/03/20 test
test
林慧怡(Lin Hui-Yi) 2014/03/27 (e) The effect of pressure on solubility of gases
(f) Colligative properties of nonelectrolyte solutions and electrolyte solutions
(g) Colloids
(h) Chemistry in action:
※ The killer lake
※ Desalination
(e) The effect of pressure on solubility of gases
(f) Colligative properties of nonelectrolyte solutions and electrolyte solutions
(g) Colloids
(h) Chemistry in action:
※ The killer lake
※ Desalination
林慧怡(Lin Hui-Yi) 2014/04/03 (d) Factors that effect chemical equilibrium
(e) Chemistry in action:
※ Life at high altitudes and hemoglobin production
※ The Haber process
(d) Factors that effect chemical equilibrium
(e) Chemistry in action:
※ Life at high altitudes and hemoglobin production
※ The Haber process
林慧怡(Lin Hui-Yi) 2014/04/10 Acid-Base equilibria and solubility equilibria:The common ion effect. Buffer solution. Preparing a buffer solution with a specific pH. Acid-Base titrations. Acid-Base indicators. Solubility equilibria
Acid-Base equilibria and solubility equilibria:The common ion effect. Buffer solution. Preparing a buffer solution with a specific pH. Acid-Base titrations. Acid-Base indicators. Solubility equilibria
林慧怡(Lin Hui-Yi) 2014/04/17 期中考試
middle examination
林慧怡(Lin Hui-Yi) 2014/04/24 Separation of ions by fractional precipitation. The common ion effect and solubility. pH and solubility. Complex ion equilibria and solubility. Application of solubility product principle to qualitative
Separation of ions by fractional precipitation. The common ion effect and solubility. pH and solubility. Complex ion equilibria and solubility. Application of solubility product principle to qualitative
李正常(Jang-Chang Lee) 2014/05/01 Electrochemistry:Redox reaction. Galvanic cells. Standard reduction potentials. Thermodynamics of Redox reactions.
Electrochemistry:Redox reaction. Galvanic cells. Standard reduction potentials. Thermodynamics of Redox reactions.
李正常(Jang-Chang Lee) 2014/05/08 The effect of concentration on cell Emf. Batteries. Corrosion. Electrolysis.
The effect of concentration on cell Emf. Batteries. Corrosion. Electrolysis.
李正常(Jang-Chang Lee) 2014/05/15 Transition metals chemistry and coordination compounds:Properties of the transition metals. Chemistry of iron and copper. Coordination compounds
Transition metals chemistry and coordination compounds:Properties of the transition metals. Chemistry of iron and copper. Coordination compounds
李正常(Jang-Chang Lee) 2014/05/22 Structure of Coordination compounds. Bonding in coordination compounds. Crystal field theory. Reaction of coordination compounds. Application of coordination compounds.
Structure of Coordination compounds. Bonding in coordination compounds. Crystal field theory. Reaction of coordination compounds. Application of coordination compounds.
李正常(Jang-Chang Lee) 2014/05/29 Nuclear chemistry:The nature of nuclear reaction. Nuclear stability. Nuclear binding energy. Natural radioactivity. Nuclear transmutation. The transuranium elements. Nuclear fission. Nuclear fusion. Uses of isotopes. Biological effects of radiation.
Nuclear chemistry:The nature of nuclear reaction. Nuclear stability. Nuclear binding energy. Natural radioactivity. Nuclear transmutation. The transuranium elements. Nuclear fission. Nuclear fusion. Uses of isotopes. Biological effects of radiation.
李正常(Jang-Chang Lee) 2014/06/05 Acids ad Bases
(a) Bronsted acids and bases
(b) pH—A measure of acidity
(c ) Strength of acids and bases
(d) Weak acids and weak bases
(e) The conjugate acids and conjugate bases
Acids ad Bases
(a) Bronsted acids and bases
(b) pH—A measure of acidity
(c ) Strength of acids and bases
(d) Weak acids and weak bases
(e) The conjugate acids and conjugate bases
李正常(Jang-Chang Lee) 2014/06/12 (f) Molecular structure and strength of acids
(g) Lewis acids and bases
(h) The common ion effect
(i) Buffer solution
(j) Acid-base titration and indicator
(k) Solubility equilibria
(l) pH and solubility
(m) Application of the solubility product principle to qualitative analysis
(n) Chemistry in action:
※ Antacids and the pH balance in your stomach
※ Maintaining the pH of blood
※ How an eggshell is formed
(f) Molecular structure and strength of acids
(g) Lewis acids and bases
(h) The common ion effect
(i) Buffer solution
(j) Acid-base titration and indicator
(k) Solubility equilibria
(l) pH and solubility
(m) Application of the solubility product principle to qualitative analysis
(n) Chemistry in action:
※ Antacids and the pH balance in your stomach
※ Maintaining the pH of blood
※ How an eggshell is formed
李正常(Jang-Chang Lee) 2014/06/19 學期考試
final examination
李正常(Jang-Chang Lee)