10 Lectures / 35 Sections / 23h 15m 47s
Lecture 1:Solutions
Lecture 2:Chemical Kinetic
Section 1
36:54
55:58
32:18
Lecture 3:Chemical Equilibrium
Lecture 4:Acids and Bases
Lecture 5:Aqueous Ionic Equilibrium
Lecture 6:Free Energy and Thermodynamics
Lecture 7:Electrochemistry
Lecture 8:Radioactivity and Nuclear Chemistry
Lecture 9:Organic Chemistry
Lecture 10:Chemistry of Transition Metals
Introduction
Duration| 23h 15m 47s
Total Lectures| 10 Lectures 35 Sections

Brief Course Description

The General Chemistry II is a continuation from General Chemistry I, in which the course will start with discussing properties of Solutions, chemical equilibria, acid-base, organic chemistry and biochemistry. This course is designed for first year undergraduate students expand their fundamental knowledge in atomic structure to chemical bonding to intermolecular forces and apply these fundamental concepts to understanding chemistry of surrounding our daily lives such as rust, acid rain, heartburn, hemoglobin, and medical diagnostic to name a few.

Course Keywords

Chemical equilibrium, acid-base, solutions, electrochemistry, kinetics, organic chemistry, biochemistry

Syllabus

 1. Solutions (2 weeks) 

    • Solution and solubility & energetics of solution formation
    • Solution equilibrium and concentration 
    • Colligative properties of Colloids 

 2. Chemical kinetics (2 weeks)

    • The rate of chemical reaction and effect of temperature on reaction rate 
    • Reaction mechanism & Catalysis
    • Chemical equilibrium & Equilibrium constant
    • Le Châtelier’s principle

 3. Acids and bases (2 weeks) 

    • Acid strength & Acid ionization constant
    • pH, acid and base solutions
    • Polyprotic acids Lewis acids/bases

 4. Free energy and thermodynamics (2 weeks)

    • Spontaneous and nonspontaneous processes
    • Entropy & state change
    • Entropy change in chemical reactions
    • Heat transfer

 5. Electrochemistry (2 weeks)

    • Oxidation-reduction
    • Cell potential, free energy, equilibrium constant
    • Voltaic cells & electricity generation

 6. Radioactivity and Nuclear Chemistry

    • Types and stability of radioactivity
    • Radioactivity & Fission
    • Nuclear transmutation and transuranium

 7. Organic Chemistry (3 weeks)

    • Hydrocarbons & Alkanes & Alkenes & Alkynes
    • Aromatic hydrocarbons & functional groups
    • Diabetes & Lipids & Carbohydrates & Proteins
    • DNA

 8. Nonmetals & metals & Metallurgy (Self-study)

    • Insulated materials
    • metal structures and alloys
    • metallurgical process & transition metals
    • Coordination compounds & isomerization

References

Chemistry: A molecular approach, Fourth Edition, Nivaldo J. Tro

Lectures
Lecture 1:Solutions
Section 1 - Course Introduction, Solution and Solubility
39:20
Section 2 - Energetics of Solution Formation
36:41
Section 3 - Solution Equilibrium and Concentration
39:04
Section 4 - Colligative Properties of Colloids
01:01:41
Lecture 2:Chemical Kinetic
Section 1 - Reaction Rate
36:54
Section 2 - Reaction Mechanism
55:58
Section 3 - Collision Theory
32:18
Lecture 3:Chemical Equilibrium
Section 1 - Chemical Equilibrium
17:42
Section 2 - Equilibrium Constant (K), Recation Quotient (Q)
56:52
Section 3 - Disturbing and Restoring Equilibrium
29:33
Lecture 4:Acids and Bases
Section 1 - Acid Strength
39:49
Section 2 - Acid Ionization
43:46
Section 3 - Polyprotic Acids, Lewis Acids/Bases, Buffers (from the chapter on Aqueous Ionic Equilibrium)
41:58
Lecture 5:Aqueous Ionic Equilibrium
Section 1 - Buffers (continued)
51:15
Section 2 - Titrations
47:18
Section 3 - Solubility and Complex Ion Equilibria
45:06
Lecture 6:Free Energy and Thermodynamics
Section 1 - Spontaneous and Nonspontaneous Processes
53:09
Section 2 - Entropy and State Change
33:12
Section 3 - Gibbs Free Energy, Standard Entropies
41:56
Section 4 - Calculation of the Changes
21:34
Section 5 - Calculation of the Changes (continued), Oxidation-Reduction (from the chapter on Electrochemistry)
50:54
Lecture 7:Electrochemistry
Section 1 - Voltaic (Galvanic) Cell, Cell potential
47:30
Section 2 - Calculation: Cell potential, Change of free energy, Equilibrium constant
41:33
Section 3 - Batteries, Nonspontaneous Reaction, Stoichiometry of Electrolysis, Corrosion
39:26
Lecture 8:Radioactivity and Nuclear Chemistry
Section 1 - Types and stability of radioactivity
51:21
Section 2 - Kinetics of Radioactivity Decay, Nuclear Fission
46:08
Section 3 - Mass Defect and Biding Energy, Nuclear Fussion, Transmutations, Measuring
38:47
Lecture 9:Organic Chemistry
Quiz 1 - Announcement
Section 2 - Structure of Ethyl and Methyl Pentane
01:00:55
Section 3 - Structure of Aromatics, Functional Groups
48:58
Section 4 - Functional Groups (Carboxylic Acid, Ester, Ether and Amines)
28:05
Section 5 - Introduction of Biochemistry and Biotechnology, Types of Lipid
25:33
Section 6 - Types of Carbohydrate and Types of Protein
43:29
Section 7 - Nucleic Acids, Mechanism of DNA replication and protein synthesis
23:12
Lecture 10:Chemistry of Transition Metals
Section 1 - Coordination compound, Crystal Field Theory (CFT)
24:50
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Prof. Keng Pei-Yuin

Dept. Materials Science and Engineering

Research Field

Nanoparticle Synthesis and Assemble; Heterostructures; Photocatalysis, Boron Neutron Capture Therapy; Bio-imaging and Cancer Treatment

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