Department

Chemistry & Biology(CB3103)

Credits

4

Instructor

Chun, Man-Seog

Class Room

Hungsel-

Kwan 307

Subject

General Chemistry2

Class Hours/Wk

4

Lab(e-mail)

Attendee

8

Course Objectives

To define the properties of solids, liquids, and gases and relate their magnitudes to the motions of molecules and to the forces between molecules

To define the properties of solutions and relate their magnitudes to composition of the solutions

To relate composition in the equilibrium state to the equilibrium constant in acid-base, precipitation and electrochemical reactions

To describe the influence of temperature on the equilibrium constant

To apply thermodynamics to explain these connections and optimize chemical reaction yield

To understand reaction rates in chemical reactions

Brief introduction to nuclear chemistry and structure of solid

Contents

Unit III. Kinetic Molecular Description of the States of Matter

Chapter 9. The Gaseous State

Chapter 10. Solids, Liquids, and Phase Transitions

Chapter 11. Solutions

Unit IV. Equilibrium in Chemical Reactions

Chapter 12. Thermodynamic Processes and Thermochemistry

Chapter 13. Spontaneous Processes and Thermodynamic Equilibrium

Chapter 14. Chemical Equilibrium

Chapter 15. Acid-Base Equilibria

Chapter 16. Solubility and Precipitation Equilibria

Chapter 17. Electrochemistry

Unit V. Rates of Chemical and Physical Processes

Chapter 18. Chemical Kinetics

Chaper 19. Nuclear Chemistry

Activity (team problem solving)

Mid-term Exam

Final Exam

Attendance & Attitude

Total

Remarks

15

35

40

10

100%

Week

Lectures contents

Remarks

Week 01

(02.26. ~03.02.)

Introduction

Chapter 9. The Gaseous State

1) The Chemistry of Gases, 2)Pressure and Temperature of Gases, 3) The ideal Gas Law, 4) Mixtures of Gases, 5) The Kinetic Theory, 6) Distribution of Energy among Molecules, 7) Real Gases: Intermolecular Forces

Week 02

(03.05.~ 03.09.)

Chapter 10. Solids, Liquids, and Phase Transitions

1) Bulk Properties of Gases, Liquids, and Solids, 2) Intermolecular Forces, 3) Intermolecular Forces in Liquids, 4) Phase Equilibrium, 5) Phase Transitions, 6) Phase Diagrams

Week 03

(03.12.~ 03.16.)

Chapter 11. Solutions

1) Composition of Solutions, 2) Nature of Dissolved Species, 3)Acid-Base Titration, 4) Oxidation-Reduction Titrations, 5) Phase Equilibrium in Solutions: Nonvolatile Solutes, 6) Phase Equilibrium in Solutions :Volatile Solutes, 7) Colloidal Suspensions

Week 04

(03.19. ~ 03.23.)

Chapter 12. Thermodynamic Processes and Thermochemistry

1) Systems, States, and Processes, 2) The First Law of Thermodynamics, 3) Heat Capacity, Enthalpy, and Calorimetry

Week 05

(03.26. ~ 03.30)

Chapter 12. Thermodynamic Processes and Thermochemistry

4) the First Law and Ideal Gas Processes, 5) Molecular contributions to internal energy and heat capacity, 6) Thermochemistry 7) Reversible processes in ideal gases

Week 06

(04.02. ~ 04.06)

Chapter 13. Spontaneous Processes and Thermodynamic Equilibrium

1) The Nature of Spontaneous Processes

2) Entropy and Spontaneity

3) Entropy and Heat

4) Entropy changes and in reversible processes

Week 07

(04.09. ~ 04.13.)

Chapter 13. Spontaneous Processes and Thermodynamic Equilibrium

5) Entropy Changes and Spontaneity

6) The Third Law of Thermodynamics

7) The Gibbs Free Energy

Week 08

Mid-term Examinations

Chapter 9 ~ 13

Week

Lectures contents

Remarks

Week 09

(04.23. ~ 04.27.)

Chapter 14. Chemical Equilibrium

1) The Nature of Chemical Equilibrium, 2) The Empirical Law of Mass Action, 3) Thermodynamic Description of the Equilibrium State, 4) The law of Mass Action for Related and Simultaneous Equilibria, 5) Equilibrium Calculations for Gas-Phase and Heterogeneous Reaction, 6) The Direction of Change in Chemical Reactions: Empirical Description,

Week 10

(04.30. ~ 05.04.)

Chapter 14. Chemical Equilibrium

7) Thermodynamic Explanation, 8) Distribution of a Single Species between Immiscible Phase

Chapter 15. Acid-Base Equilibria

1) Classifications of Acids, 2) Properties of Acids and Bases, 3) Acid and Base Strength, 4) Equilibria Involving Weak Acids and Bases, 5) Buffer Solutions, 8) organic Acids and Bases : structure and reactivity

open class

Week 11

(05.07. ~ 05.11.)

Chapter 15. Acid-Base Equilibria

6) Acid-Base Titration Curves, 7) Polyprotic Acids

Chapter 16. Solubility and Precipitation Equilibria

1) The Nature of Solubility Equilibria, 2) Ionic Equilibria between Solids and Solutions, 3) Precipitation and the Solubility Product, 4) The Effects of pH on Solubility, 5) Complex Ions and Solubility Deeper look) Selective Precipitation of Ions,

Week 12

(05.14. ~ 05. 25.)

Chapter 17. Electrochemistry

1) Electrochemical Cells, 2) Cell Potentials and The Gibbs Free Energy, 3) Molecular interpretation of electrochemical processes,

4) Concentration effects and the Nernst equation

가정학습

Week 13

(05.28. ~ 06.01)

Chapter 17. Electrochemistry

6) Batteries and Fuel Cells, 7) Corrosion and Its Prevention,

8) Electrometallurgy

Chapter 18. Chemical Kinetics

1) Rates of Chemical Reactions, 2) Rate Laws,

Week 14

(06.04. ~ 06.08.)

Chapter 18. Chemical Kinetics

3) Reaction Mechanisms, 4) Reaction Mechanisms and Rate, 5) Effect of Temperature on Reaction Rates, 6) Molecular theories of elementary reactions, 7) Reaction in solution

Week 15

(06.11. ~ 06.15.)

Chapter 18. Chemical Kinetics

8) Catalysis

Chapter 19. Nuclear Chemistry

1) Radioactivity, 2) Nuclear structure and nuclear decay processes

3) Mass energy relationships, 4) Kinetics of Radioactive decay

Week 16

Final examinations

Chapter 14 ~ 19