Course title
無機化学基礎   [Fundamental Inorganic Chemistry]
Course category technology speciality courses  Requirement   Credit 2 
Department   Year 14  Semester 1st 
Course type 1st  Course code 021410
Instructor(s)
飯島 淳   [IJIMA Jun]
Facility affiliation Graduate School of Engineering Office afjgxte/L1151  Email address

Course description
This course provides students with fundamentals of physical chemistry and inorganic chemistry. After getting the knowledge of atoms, the formation and mechanism of compound is lectured.
To understand a variety of chemical reactions and phenomena, thermochemistry, kinetics, equilibrium, acids and bases, thermodynamics, electrochemistry are lectured. Finally, coordination chemistry is lectured.
Expected Learning
To acquire the basic chemical knowledge and to understand the phenomena from the view point of atomic and molecular level. See the curriculum maps.
Course schedule
#1: Guidance, Periodicity of atoms and electronic structure
Electromagnetic wave, wave-particle duality, Uncertainty principle, wave function, orbital
Pauli exclusion principle, Electron configuration, Periodic table
#2: Ionic bond and chemistry of main elements
Molecule, Ion, Ionic radius, Ionization energy, Electron affinity, Octet law, Ionic bond.
Lattice energy
#3: Covalent bond and molecular structure
Covalent bond, Electronegativity, Electron-dot structure, Formal charge, VSEPR
Valence bond theory, Hybrid orbital, Molecular orbital
#4: Thermochemistry and chemical energy
State function, Hess’s law, Standard heats of formation, Dissociation energy, Enthalpy, Entropy
#5: Properties and behaviors of gas
Gas laws, Ideal gas, Dalton’s law, Kinetic molecular theory of gases, Graham’s law, Real gas
#6: Liquid, solid and phase transition
Polar covalent bond, Dipole moment, Intermolecular force, Phase transition
X-ray crystallography, Ionic crystal, Covalent crystal
#7: Properties of solution
  Solubility, Solubility process, Colligative property, Raoult’s law, Elevation of boiling point
  Depression of freezing point, osmotic pressure
#8:Mid examination (Exam coverage: #1 ~ #7)
#9: Kinetics and chemical reaction
Reaction rate, Reaction order, First-order reaction, Second-order reaction, Half-life,
Elementary reaction, Overall reaction, Arrhenius equation, Catalyst
#10: Equilibrium of chemical reaction
Equilibrium constant, LeChatelier’s principle, Chemical equilibrium and kinetics
#11: Acid and bases, and equilibrium in the aqueous solution
Definition of acids and bases, pH, Neutralization, Buffer solution, Henderson equation
#12: Thermodynamics
Enthalpy, Entropy, Free energy, Second law of thermodynamics, chemical equilibrium
#13: Electrochemistry
  Galvanic cell, Standard potential, Nernst equation, Determination of pH,
Standard potential of the cell, and equilibrium constant
#14: Transition metals and coordination chemistry
Coordination compound, Ligand, Isomer, Chirality, Color of metal complex, Valence bond theory,
Crystal field theory
#15:Final examination (Exam coverage: #9 ~ #14)
Prerequisites
Basic knowledge of chemistry learned in high school is required.
Required Text(s) and Materials
“McMurry General Chemistry” by John McMurry and Robert C. Fay
References
“Atkins General Chemistry” by P. Atkins, L. Jones, and L. Laverman
“Spencer Basic Chemistry” by J. N. Spencer, G. M. Bodner, L. H. Rickard
“Atkins Elements of Physical Chemistry” by P. Atkins, J. Paula
Assessment/Grading
Attitude (15%), Mid examination (45%), Final examination (40%)
Message from instructor(s)
Based on the knowledge of chemistry in high school, basic chemistry which are required for the study in university is lectured.
Course keywords
Atom structure, Molecular structure, Bond formation, Thermochemistry, Kinetics, Equilibrium Acids and Bases, Electrochemistry, Coordination Chemistry
Office hours
I’m a part-time lecturer, so Q&A is welcomed after each course. Also, before the exam, Q&A using E-mail is acceptable as much as possible.
Remarks 1
Remarks 2
Related URL
Lecture Language
Japanese
Language Subject
Last update
2/27/2020 1:28:46 PM