This class is opened in intention to express creative imagination through speech and writing. The class is divided by 2 parts explaining writing and thoughts, speech and culture for 2 hours each. Writing and thoughts contains association training, structures of writing, description, compare and contrast and writing logical sentences. Speech and culture criticizes culture and literature. Both parts contain many programs that enables students to participate. That should make the class interesting and also valuable.
Introduction to Computer
This course introduces the basic concepts of computer hardwares and softwares. Students will also learn the applications of computers to various services by carrying out experiments. Topics to be covered include CPU(Central Processing Unit), Input/Output devices, storage devices, multimedia, internet, programming languages, operating systems, system analysis and design, management information system, word processing and desktop publishing, spread sheet and graphics, and database management systems.
This course will cover physics experiments related to mechanics and the physical properties of electric and magnetic fields created by static charge and current distributions.
This course consists of experiments about the basic conecpts of mechanics, measurement of physical quantities, and some physical properties of materials.
Basic theoretical aspects of the general chemistry will be examined through observations and experiments. The basic laboratory techniques for the general chemistry will be practiced. Determination of physical and chemical properties of unknown samples, recrystallization, acid-base titration and determination of equilibrium constant will be handled.
PHY242 World of Ocean
This is an exploratory course for the first year students in the College of Science and Technology, introducing specialties, research trend and courses of the Department of Earth and Marine Sciences. Subjects such as plate tectonics, marine acoustics, earthquakes, diversity of marine biology, pollution affecting human lifes are some of many interesting lecture titles.
Economic Mind is a subject for students studying natural and engineering science. Nowadays, a global competitive society needs specialists in each field. The board in a company has been consisted of special technicians and government also needs specialists in several areas. This means that scientists or engineers will play an important role as a CEO in both of company and government. To make one's way in the future students should build up economic and managerial mind before making inroads into the world. In this subject, therefore, only the basic tools of economics and business administration are introduced and some concrete examples are mainly analyzed.
The theoretical aspects of basic physical chemistry will be examined and practiced through observations and experiments. Calorimetric method, oxidation-reduction titration, synthesis of aspirin and the studies on Beer's law using an absorption spectroscopy will be handled.
GEN131 ÄÄÇ»ÅÍÇÁ·Î±×·¡¹Ö Principles of Computer Programming
This class teaches the basic principles and techniques
for solving real word problems using computers.
Students can develop the ability to design efficient
programs by learning the syntax of high level languages,
the concepts of and elementary methodology for program
design, and implementation techniques.
Topics to be covered include the concepts of computer
programming, basic programming methodology,
data types, operators, expressions, control flow,
functions, program structure, pointers and arrays.
Course Title : Philosophical Understanding of Science and Technology
This course aims to cultivate among students the comprehensive understanding of science and technology in modern society, employing philosophical methods and concepts.
To do this, the course offers a survey of some important theoretical results recently obtained in science and technology studies.
We will carefully examime a number of concrete case-studies, ranging from the electrification of America, quantum revolution to the introduction of western science to traditional Korea.
We will then discuss the intrinsic nature of modern science and technology as well as its socio-cultural aspects in the context of modern society.
Students who take the course shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of unique characteristics, which can be clearly distinguished from the science and technology of even, the eighteenth century.
We will discuss in the class the significance of this difference.
The course will also highlights the importance of dialogue between experts with different background and encourage more interactions between humanities and natural sciences, so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society.
CHE307 Environmental Chemistry
Various pollutions of water, soil, and air region derived from the development of industry and increasing the population in large cities are discussed in this course. Basic chemical principles and classification of pollutions, chemical pathway and treatments are discussed in detail.
CHM201 Physical Chemistry 1
Introduction to the basic principles of physical chemistry : law of gas, equation of
state, thermodynamics, kinetic-molecular theory, critical phenomena, phase
equilibrium, chemical reaction and equilibrium, ionic solutions, transport properties,
electrochemistry and surface chemistry.
CHM205 Physical Chemistry Lab. 1
Introduction to experimental methods based on the theories of physical chemistry 1
: vapor pressure of liquid, heat of solution, enthalpy of neutralization, partial molar
volume in mixture, phase equilibrium, viscosity measurements, and determination of
molecular weight.
CHM223 Experiments of Analytical Chemistry
Basic operations of chemical measurements are treated in this course. Out of quantitative measurements, gravimetry, volumetric analysis, acid-base analysis, environmental analysis, oxido-reduction analysis are treated.
CHM236 Basic Concept of Organic Chemistry
This course will provide the broad basic knowledge of organic chemistry for the
beginner. The nomenclature of organic compounds, the basic organic reactions, and
the various compounds in nature will be introduced. From learning these basic
knowledge of organic chemistry, it will provide the backgrounds of the courses, organic
chemistry I & II.
Course Title : Introduction to Inorganic Chemistry
CHM237 Introduction to Inorganic Chemistry
This is the introductory course for first-time students of inorganic chemistry .
The basic theories of inorganic chemistry, including atomic structure, periodic table, acid
-base theory and oxidation-reduction reaction will be discussed
CHM246 Quantitative Chemical Analysis 1
The basic principles of qualitative and quantitative analysis are treated. Methods and principles of analysis and experimental errors, and calculations of stoichiometry or various chemical reaction are discussed. Volumetric, gravimetric, acid-base analysis and chemical equilibrium and numerical methods using computer are treated.
CHM247 Practical Science
The aim of this course is to develop the creative ability to solve problems in their major field and to
improve capability of student studying science, and the instructor will help students investigate the
behavior of natural phenomena, process of chemical reactions, relationship between nature and
mankind, the universe and the earth, and modern physics.On the basis of the obtained knowledge,
special them will be given to student groups and discussed between student groups and the
instructor. This course will proceed to provide students with capability of logical thought on the
scientic phenomena..
CHE316 Inorganic Chemistry
The basic theory of bonding and reaction for inorganic compounds will be discussed. The structure and reaction mechanism for coordination compounds will be explained. Acid-base theory and Redox reaction also will be discussed.
CHM202 Physical Chemistry 2
As an extension of Physical Chemistry 1, this course covers the fundamental
concepts of electrochemistry, chemical kinetics, basic quantum theory, atoms and
molecules, chemical bonding and statistical mechanics
CHM222 Organic Laboratory
In order to understand the theoretical concepts obtained from the organic chemistry lecture,
the laboratory section will cover the analysis of alcohols, amines, aldehydes, ketones, carboxylic
acids and derivatives, carbohydrates and various reactions, and isolation and purification with
methods of thin-layer chromatograpy, fractional distillation, recrystallization and identification of
structure by using infrared, nuclear magnetic resonance, and ultraviolet-visible spectroscopy
CHM248 Quantitative Chemical Analysis 2
As an extension of quantitative chemical analysis, chemical equilibria of polyprotic acid-base, complex formation, and oxido-reduction are discussed indetail. As a part of chromatography, method of extraction, distillation are also treated. Basic principles of electroanalytical chemistry such as cyclic voltametry, polarography are also discussed in detail.
CHM249 Chemical Information and Computer
Components, operating system, network, internet, and management of computer related to chemistry are discussed. Data base of chemical information, chemical references scattered, investigation of chemical information, various software usage are treated. Operating system, computer language, desktop publishing, data treatment, usage of chemical software are focused in this course.
CHM250 Practical Chemistry
The practical applications of chemistry in life and industry will discussed. This course will introduce how the knowledge of chemistry has helped people in their daily life. In addition, the discovery of new drugs, agricultural chemicals, dyes, cosmetics, natural products also are discussed. The aim of this course is to increase students' understandings of the practical applications of chemistry.
CHM261 Organic Chemistry
Electronic Structure and bonding, and the nomenclature, various reactions and synthesis of alkanes, alkenes, alkynes, alcohols, alkylhalides, arene and its derivatives, and the reaction mechanism of nucleophilic and electrophilic substitution, along with elimination and addition reaction, and stereochemistry in organic compounds will be covered in this course
CHM305 Physical Chemistry Lab. 2
Extension of Physical Chemistry Laboratory 1 : this course introduces instrumental
methods, utilizing gas chromatography, ifrared and un-visible spectrophotometer, high
pressure apparatus, tensionmeter, refractometer and polarimeter, to understand the
theories of phase transitions, chemical reaction rates, molecular structure, and
intermolecular interactions and electrochemistry
Java Programming Language
The objective of this course is to provide the basic programming skill using the JAVA programming language. Topics covered include JAVA syntax, object-oriented programming, classes, object creation and application, class inheritance, interface programming, exception handling, GUI programming, AWT event programming, and JAVA Applet
CHM337 Chemistry Techniques
The aims of this course are to understand the definitions, derivations and combinations of the units for physical quantities to develop measurements, for minimum error.
Students can relatively ananlyze the data to find the functional relationships between
measured quantities, and can produce the techniques of understanding unmeasured
quantities of materials by discovering other properties from the data. The focuses on s
cientific treatments of chemical phenomena in life through characterizations of energy,
structure and properties of substances, and mathematical ananlyses of data.
CHM343 Applied Organic Laboratory
This course contains a variety of experiments to introduce and illustrate important reactions commonly encountered in the applied organic chemistry. The synthesized organic materials in this course will be characterized by combining information obtained from NMR, infrared, ultra-violet, and mass spectroscopy.
CHM348 Applied Organic Chemistry
This is an applied course based on organic chemistry. As an extension of organic chemistry, the course will cover organometallics, aldehydes, ketones, carboxylic acids and their derivatives, amines, aryl halides, carbohydrates, amino acids, peptides, and nucleic acids. This course will provide an ability for the application based on the basic knowledge of organic materials.
CHM401 Instrumental Analysis
The classification of instrumental analysis converting chemical signal to analytical signal, components and related material, properties of electromagnetic radiation, instrumental performance and properties are discussed in this course. From the basic electronics, computer interface, basic principles of absorption and emission are treated. Principles of analysis for AAS, ICP, UV, Fluorescence, IR, Raman, NMR, MASS, GC, HPLC, X-ray Crystallography, TGA/DSC, SEM/TEM are discussed in detail.
CHM403 Experimental Inorganic Chemistry
Fundamental laboratory techniques for the synthesis and reactions of the representative main group elements and transition metal complexes will be practiced.
CHM407 Quantum Chemistry
Basic principles of quantum mechanics to understand the electronic structure and and
chemical bonding in molecules: quantum mechanical postulates, Schroedinger equation,
particle in a box, harmonic oscillator, angular momentum, hydrogen atom, multi-electronic
atoms, variation method, perturbation theory, diatomic molecule, polyatomic molecule,
basic principles of molecular orbital calculation.
CHM411 Solid State Chemistry
This course deals the bonding, stoichiometry and stucture of the solid state compounds. Crystal structure of the solid, the influence of the bonding to the properties of the solid state compounds will be discussed.
CHM418 Chemical separations
This course introduces the fundamentals of analytical separations using the methods of
chloratography(GC, LC, GC/Mass. ion-exchange etc.). The content includes the priciple of
distration, the solubility and distribution equilibrium, phase equilibrium or gas adsorption,
adsorption and drying of solids, etc.
ICH302 Organic industrial chemistry
Modern organic industrial chemistry is based on the petrolchemical industry. Most of necessaries
in modern life consist of organic compounds such as medicines, synthetic fibers, food
additives, plastics, adhesive, paints, and dye stuffs. The synthetic methods of the complicated
organic compounds from C1-compound obtained from cracking of the crude oil will be
discussed along with its applications and polymerization of monomers.
CHM312 Synthesis of Organic Materials
The aim of this course is to increase student's abilities in designing strategies for the efficient synthesis of organic materials. Retro-synthetic analysis, bond polarity, and the functional group interconversion will be discussed. The reaction mechanism also will be emphasized in the lecture. Some of the reagents which give effective chemo-, regio-, stereoselectivities in the reactions will be highlighted.
Course Title : Structural Analysis of Organic Compounds
CHM315 Spectrometric Identification of Organic Compounds
This course will introduce the basic principles of Nuclear Magnetic Resonance
Spetroscopy, Infrared Spectroscopy, Ultraviolet Spectroscopy, and Mass Spectroscopy.
The course will focus the spectral analysis of organic compounds using these spectral
methods.
CHM338 Chemical Kinetics
The object of this course is to present experimental results and theories relating to the
rates with which chemical reaction occur. Main subjects : theories of reaction rates :
elementary gas-phase reactions ; elementary reactions in solution : reactions on surface
: composite reactions : reaction dynamics.
CHM349 Inorganic Materials, Lab.
Synthesis and characterization of functional inorganic materials including single crystal,
polycrystals, nanosized particles and sintered materals will be practiced. Newly developed
synthetic methods and spectroscopic methods for characteriztion are also introduced.
CHM350 Introduction to Molecular Science
The fundamental structures and charactors of materials will be reviewed on the
molecular levels to explain the natural phenomena for the chemical applications. The
statistical method can be applied to understand macroscopic properties of matter by
the molecular kinetics and the intermolecular interactions. The concepts of the
equilibrium and nonequilibrium thermodynamics will also be considered. The entropies
and free energies are explained by the molecular motions to apply to the chemical
reactions as well as the spontaneous changes of the natural systems.
Course Title : Application of Molecular Spectroscopy
CHM357 Application of Molecular Spectroscopy
Basic principles of molecular spectroscopy based on quantum theory: microwave, FT-IR,
Raman, UV, fluorescence, electron diffraction spectroscopy, applications of laser,
interpretation methods of spectroscopic data to elucidate the molecular structure and
dynamics.
This course is composed of the overall basic chemical knowledge and chemistry experimental methods involving physical chemistry, inorganic chemistry, organic chemistry, and analytical chemistry that are necessary to be obtained for the chemistry educators. The course will provide the various chemical basic theories for middle and high school education and also help to understand the physicochemical properties of materials through versatile experimental techniques. Also, it will be treated the systematic educational psychology and the methodology of chemical education that helps educands to approach and understand material science easily
CHM415 Coordination Chemistry
Electronic structure, spectroscopic properties, magnetic properties and reactions of coordination compounds will be discussed based on the crystal field theory and molecular
orbital theory. Properties and catalysis of the organometallic compounds also will be dis
cussed
CHM451 Experiments of Instrumental Analysis
Basic instrumental principles related with quantitative chemical analysis and instrumental analysis are discussed to characterize material. Simple synthesis, separation and purification method, and principles of measurement of various instruments, method spectral interpretation are treated.
A major objective of this course is to provide a strong background in the structures and functions of biomaterials as like DNA, RNA, protein, lipid, and carbohydrate. A second goal is to teach a basic bioanalytical method and the application of such biomaterials to biosensor and biochip. A third aim is to introduce a wide range of techniques that are useful in modern bioanalytical chemistry.
CHM307 Polymer chemistry
The first part of this course introduces to students the basic concepts and properties of
polymers, and the polymerization mechanism of radical, anionic, cationic and condensation
polymerization.
The second part will deal with new synthetic methods of polymers, concepts of blends and
composites, and the effects of molecular weights, its distribution, morphology and chemical
structure on mechanical properties.
CHM308 Organic Reaction Mechanism
This course will cover the reaction mechanisms in organic chemistry. From the detailed review of various organic reactions and the understanding of organic reaction pathways,
it will provide the broad knowledge for the organic chemistry.
CHM404 Physical Organic Chemistry
Systematic application of quantum chemistry to organic reaction : kinetics and
mechanism, linear free energy relationships, the reactivity-selectivity Principle and
isoselectivity rule, correlations between molecular structure and chemical equilibria.
CHM462 Fluid Phase Chemistry
Goal of this course is to understand the origin of fluid behaviors to apply to the
chemical phenomena. This course contains an introduction to topics such as heat
and momentum transfer due to the molecular motions in fluid phase, phase equilibria
and applications of multicomponent systems, and production of supercritical fluids
and their applications to chemical processes.
CHM463 Inorganic Materials Chemistry
Inorganic materials used for optical and electromagnetic devices are introduced.
Synthetic methods, microstructure analysis and applications of the materials will be
discussed.
CHM317 Computational Chemistry
Application of computational methods to chemistry: basic principles of force-field
molecular mechanics and quantum mechanical ab initio methods, geometry optimization,
potential energy surface calculation, vibrational frequency calculation, determination of
reaction mechanism, and molecular modelling.
CHM437 Medicinal Chemistry
The discovery and development of new agents for treating diseases, the structure-activity relationship of drugs, chemical synthesis , the isolation of natural-product drngs, and drug designs will be discussed in this course
CHM464 Exotic Material Analysis
Recent trends of the findings and developments of new exotic material utilized in industry, classification and method of analysis are discussed. Components of material obtained from the organic and inorganic compound analysis, methods of structural characterization and investigation related to new material are treated in this course.
CHM465 Application of polymer
This course will first introduce to students basic concepts about characterization of polymeric
structures, measurement of mechanical properties and molecular weights and its distribution, and
then polymeric materials and functional polymers, and industrial and domestic application
according to thermal behavior and mechanical properties will be classified. Preparation of
engineering plastics, special polymers, functional polymers, polymer blends, and composites will be
also discussed.
MAE306 Crystallography
The basic group theory which deals molecular structure and symmetry will be discussed. The properties of crystal and X-ray, and the interaction between the crystal and X-ray will be introduced. The theory of the molecular structure determination by X-ray diffraction will be discussed and the practice of the crystal structure determination using a diffractometer and a computer will be practiced.
This class is opened in intention to express creative imagination through speech and writing. The class is divided by 2 parts explaining writing and thoughts, speech and culture for 2 hours each. Writing and thoughts contains association training, structures of writing, description, compare and contrast and writing logical sentences. Speech and culture criticizes culture and literature. Both parts contain many programs that enables students to participate. That should make the class interesting and also valuable.
First semester of a two-semester calculus-based introductory physics course for science and engineering majors.This course will cover physics related to Newtonian mechanics, oscillations and waves, heat and thermodynamics.
This course consists of experiments about the basic conecpts of mechanics, measurement of physical quantities, and some physical properties of materials.
Language of chemistry, chemical calculations, gas, solution, chemical equilibrium, acid-base reaction are discussed in order to understand the basic principles explaining properties of substance, molecular structure, chemical change, rules of chemistry and related concepts.
Basic theoretical aspects of the general chemistry will be examined through observations and experiments. The basic laboratory techniques for the general chemistry will be practiced. Determination of physical and chemical properties of unknown samples, recrystallization, acid-base titration and determination of equilibrium constant will be handled.
GEN131 ÄÄÇ»ÅÍÇÁ·Î±×·¡¹Ö Principles of Computer Programming
This class teaches the basic principles and techniques
for solving real word problems using computers.
Students can develop the ability to design efficient
programs by learning the syntax of high level languages,
the concepts of and elementary methodology for program
design, and implementation techniques.
Topics to be covered include the concepts of computer
programming, basic programming methodology,
data types, operators, expressions, control flow,
functions, program structure, pointers and arrays.
The purpose of this course is for the incoming student to find out
the meaning of college life and a good way to a successful student life.
In the course, students are encouraged to adjust to college life
through activities such as discussion, presentation and interview with
advisors.
PHY242 World of Ocean
This is an exploratory course for the first year students in the College of Science and Technology, introducing specialties, research trend and courses of the Department of Earth and Marine Sciences. Subjects such as plate tectonics, marine acoustics, earthquakes, diversity of marine biology, pollution affecting human lifes are some of many interesting lecture titles.
The purpose of this class is to provide life science for freshmen that are not major in biology and physics for freshmen that are major in biology. By taking reciprocal lectures, the comprehensive understanding of nature and life science will be achieved for future scientists.
Second semester of a two-semester calculus-based introductory physics course for science and engineering majors. This course will cover physics related to electricity, magnetism, geometrical and physical optics, relativity and quantum mechanics.
Modern chemistry is the one of basic tools in uderstanding the natural sciences. Based on the contents treated in previous semester, various contents of chemistry associated with pure science and engineering are treated in this course. Topics including atomic structure, electronic configuration and periodic table, chemical bond, bondign theory, molecular structure, liquid, solid, molecular force, chemical reaction, thermochemisty, electrochemistry and nuclear chemistry are discussed to understand the nature of matter and their applications.
The theoretical aspects of basic physical chemistry will be examined and practiced through observations and experiments. Calorimetric method, oxidation-reduction titration, synthesis of aspirin and the studies on Beer's law using an absorption spectroscopy will be handled.
This course will give the chance students to imporve their reading skill needed before taking their own major classes. This course is designed to focus on reading, but it'll deal with general knowlege of English such as listening, speaking and writing. Therefore with this course, students can improve their English communication skill.
Course Title : Philosophical Understanding of Science and Technology
This course aims to cultivate among students the comprehensive understanding of science and technology in modern society, employing philosophical methods and concepts.
To do this, the course offers a survey of some important theoretical results recently obtained in science and technology studies.
We will carefully examime a number of concrete case-studies, ranging from the electrification of America, quantum revolution to the introduction of western science to traditional Korea.
We will then discuss the intrinsic nature of modern science and technology as well as its socio-cultural aspects in the context of modern society.
Students who take the course shall appreciate how modern science and technology from the nineteenth century has come to manifest a number of unique characteristics, which can be clearly distinguished from the science and technology of even, the eighteenth century.
We will discuss in the class the significance of this difference.
The course will also highlights the importance of dialogue between experts with different background and encourage more interactions between humanities and natural sciences, so that we can make well-informed and reasonable decisions concerning complicated issues which are so common in our multi-layered society.
This course will give the chance students to imporve their reading skill needed before taking their own major classes. This course is designed to focus on reading, but it'll deal with general knowlege of English such as listening, speaking and writing. Therefore with this course, students can improve their English communication skill.
This course is for the introduction of experimental methods based on the theories of physical chemistry: the vapor pressure of liquids, heat of solution, enthalpy of neutralization, partial molar volume in mixtures, phase equilibrium, viscosity measurements, and the determination of molecular weight.
CHM223 Experiments of Analytical Chemistry
Basic operations of chemical measurements are treated in this course. Out of quantitative measurements, gravimetry, volumetric analysis, acid-base analysis, environmental analysis, oxido-reduction analysis are treated.
This is a theoretical lecture to produce the knowledge of physical chemistry from the prgress of the natural laws in terms of the state function relationships, the model of molecular kinetics, phase diagrams, chemical reactions and chemical equilibria, activities of the nonelectrolytes and electrolytes in solution, and the electrical properties of the materials.
CHM236 Basic Concept of Organic Chemistry
This course will provide the broad basic knowledge of organic chemistry for the
beginner. The nomenclature of organic compounds, the basic organic reactions, and
the various compounds in nature will be introduced. From learning these basic
knowledge of organic chemistry, it will provide the backgrounds of the courses, organic
chemistry I & II.
The basic principles of qualitative and quantitative analysis are treated. Methods and principles of analysis and experimental errors, and calculations of stoichiometry or various chemical reaction are discussed. Volumetric, gravimetric, acid-base analysis and chemical equilibrium and numerical methods using computer are treated.
The basic theory of the quantum mechanics will be reviewed. The atomic structure, molecular structure and chemical bonding theory will be discussed. Acid-base theory and Redox reaction will also be discussed.
This course will focus on developing students¡¯ English communication ability through interaction with interesting and engaging topics. With an emphasis on speaking and listening, all four language skills are covered: listening, speaking, reading and writing. Lectures include grammar review, drills, and interactive exercises that will expand and sharpen student¡¯s English ability.
This is an applied course based on physical chemistry. As an extension of physical chemistry. This course covers chemical kinetics and dynamics, electrochemistry, basic quantum chemistry, chemical bonding and basic statistical mechanics.
In order to understand the theoretical concepts obtained from applied physical chemistry lecture, this course introduces instrumental methods, utilizing GC, FT-IR and UV&Visible spectrophotometer, refractometer, chemical reaction and Chemical structure Modelling & energe calculation(molecular mechanics calculation and Ab initio molecular orbital calculation) using PC and workstation.
CHM222 Organic Laboratory
In order to understand the theoretical concepts obtained from the organic chemistry lecture,
the laboratory section will cover the analysis of alcohols, amines, aldehydes, ketones, carboxylic
acids and derivatives, carbohydrates and various reactions, and isolation and purification with
methods of thin-layer chromatograpy, fractional distillation, recrystallization and identification of
structure by using infrared, nuclear magnetic resonance, and ultraviolet-visible spectroscopy
As an extension of quantitative chemical analysis, chemical equilibria of polyprotic acid-base, complex formation, and oxido-reduction are discussed indetail. As a part of chromatography, method of extraction, distillation are also treated. Basic principles of electroanalytical chemistry such as cyclic voltametry, polarography are also discussed in detail.
CHM261 Organic Chemistry
Electronic Structure and bonding, and the nomenclature, various reactions and synthesis of alkanes, alkenes, alkynes, alcohols, alkylhalides, arene and its derivatives, and the reaction mechanism of nucleophilic and electrophilic substitution, along with elimination and addition reaction, and stereochemistry in organic compounds will be covered in this course
Electronic structures, spectroscopic and magnetic properties of the coordination compounds will be discussed based on the crystal field theory and molecular orbital theory. Reacrions and properties of the coordination compounds will also be discussed.
The main goal of this course is to provide a strong knowledge base of English which you can build on in the future. We will focus on vocabulary, expressions, pronounciation and grammar. You will be asked to converse and write on different topics each class, and also there will be chances for free talking and writing within the framework of the given lesson.
The classification of instrumental analysis converting chemical signal to analytical signal, instrumental components and their related materials, properties of electromagnetic radiation, instrumental performance and properties are discussed in this course. From the basic electronics, computer interface, basic principles of absorption and emission of spectroscopy are treated. Principles of analysis for atomic absorption and emission (AAS, ICP), molecular absorption and emission (UV-Vis, Fluorescence, IR, Raman) spectroscopies are discussed in detail.
Fundamental laboratory techniques for the synthesis and reactions of the representative main group elements and transition metal complexes will be practiced.
CHM338 Chemical Kinetics
The object of this course is to present experimental results and theories relating to the rates with which chemical reaction occur. Main subjects : Theories of reaction rates, Elementary gas-phase reactions, Elementary reactions in solution, Reactions on surface, Composite reactions, Reaction dynamics.
CHM343 Applied Organic Laboratory
This course contains a variety of experiments to introduce and illustrate important reactions commonly encountered in the applied organic chemistry. The synthesized organic materials in this course will be characterized by combining information obtained from NMR, infrared, ultra-violet, and mass spectroscopy.
CHM348 Applied Organic Chemistry
This is an applied course based on organic chemistry. As an extension of organic chemistry, the course will cover organometallics, aldehydes, ketones, carboxylic acids and their derivatives, amines, aryl halides, carbohydrates, amino acids, peptides, and nucleic acids. This course will provide an ability for the application based on the basic knowledge of organic materials.
CHM407 Quantum Chemistry
Basic principles of quantum mechanics to understand the electronic structure and and
chemical bonding in molecules: quantum mechanical postulates, Schroedinger equation,
particle in a box, harmonic oscillator, angular momentum, hydrogen atom, multi-electronic atoms, variation method, perturbation theory, diatomic molecule, polyatomic molecule, basic principles of molecular orbital calculation.
Electronic structure, spectroscopic properties, magnetic properties and reactions of coordination compounds will be discussed based on the crystal field theory and molecular orbital theory. Properties and catalysis of the organometallic compounds also will be discussed.
ICH302 Organic industrial chemistry
Modern organic industrial chemistry is based on the petrolchemical industry. Most of necessaries
in modern life consist of organic compounds such as medicines, synthetic fibers, food
additives, plastics, adhesive, paints, and dye stuffs. The synthetic methods of the complicated
organic compounds from C1-compound obtained from cracking of the crude oil will be
discussed along with its applications and polymerization of monomers.
CHM307 Polymer chemistry
The first part of this course introduces to students the basic concepts and properties of
polymers, and the polymerization mechanism of radical, anionic, cationic and condensation
polymerization.
The second part will deal with new synthetic methods of polymers, concepts of blends and
composites, and the effects of molecular weights, its distribution, morphology and chemical
structure on mechanical properties.
Course Title : Structural Analysis of Organic Compounds
CHM315 Spectrometric Identification of Organic Compounds
This course will introduce the basic principles of Nuclear Magnetic Resonance
Spetroscopy, Infrared Spectroscopy, Ultraviolet Spectroscopy, and Mass Spectroscopy.
The course will focus the spectral analysis of organic compounds using these spectral
methods.
CHM350 Introduction to Molecular Science
The fundamental structures and charactors of materials will be reviewed on the
molecular levels to explain the natural phenomena for the chemical applications. The
statistical method can be applied to understand macroscopic properties of matter by
the molecular kinetics and the intermolecular interactions. The concepts of the
equilibrium and nonequilibrium thermodynamics will also be considered. The entropies
and free energies are explained by the molecular motions to apply to the chemical
reactions as well as the spontaneous changes of the natural systems.
Course Title : Application of Molecular Spectroscopy
CHM357 Application of Molecular Spectroscopy
Basic principles of molecular spectroscopy based on quantum theory: microwave, FT-IR,
Raman, UV, fluorescence, electron diffraction spectroscopy, applications of laser,
interpretation methods of spectroscopic data to elucidate the molecular structure and
dynamics.
This course is a continuation of the previous instrumental analysis. Spectroscopies frequently used in the chemical and biochemical area associated with researches of the recent fused researches including BT, ET and NT are selectively discussed. For example, spectroscopic analysis (NMR), separation methods(GC, HPLC, Electrophoresis), Mass analysis (MALDI-TOF, ESI-MASS, GC-MSD), electrochemical analysis (CV, Polarography). thermal analysis (TGA, DSC) and surface analysis (SEM, TEM, Microconfocal miscroscopy, AFM) are selectively treated in detail.
CHM411 Solid State Chemistry
This course deals the bonding, stoichiometry and stucture of the solid state compounds. Crystal structure of the solid, the influence of the bonding to the properties of the solid state compounds will be discussed.
Basic instrumental principles related with quantitative chemical analysis and instrumental analysis are discussed to characterize material. Simple synthesis, separation and purification method, and principles of measurement of various instruments, method spectral interpretation are treated.
As the fast development of industry, environmental disruptions become more serious enough to threaten our lives. Basic theory of environmental resources, environmental analysis and standard methods of the elimination of various pollutants are lectured for water pollution, air pollution and soil pollution. Frequently used instrumental analysis in environmental analysis are selectively treated.
Recent advances in interdisciplinary fusion research demand well-trained human resources with a variety of academic specialties. Especially, nano-technology in which materials are manipulated in nanometer scales is expected to achieve true advances when it is founded upon fundamental understanding of many metallic and non-metallic compounds. Therefore, this course will cover the behavior of traditional inorganic materials, such as single-crystals, powders, and molecular solids, as well as the achievements and future developments in cutting-edge areas dealing with organic-inorganic hybrids, nanoporous materials, metal-containing supramolecules and nano-particles.
CHM308 Organic Reaction Mechanism
This course will cover the reaction mechanisms in organic chemistry. From the detailed review of various organic reactions and the understanding of organic reaction pathways,
it will provide the broad knowledge for the organic chemistry.
CHM312 Synthesis of Organic Materials
The aim of this course is to increase student's abilities in designing strategies for the efficient synthesis of organic materials. Retro-synthetic analysis, bond polarity, and the functional group interconversion will be discussed. The reaction mechanism also will be emphasized in the lecture. Some of the reagents which give effective chemo-, regio-, stereoselectivities in the reactions will be highlighted.
Course Title : Chemical Bibliographical Information
This course will focus on the search for and utilization of chemical literature, as well as practice in collection and systematization of reference materials relevant to assigned topics through SciFinder, ACS (American Chemical Society), Nature, RSC(Royal Society of Chemistry), Wiley InterScience, Science Direct and other literatures.
The curriculum of 'Semiconductor Chemistry' provides the chance of understanding basic operation principles and fabrication processes about semiconductor devices based on semiconducting nanomaterials. This course can give a change to understand the relationship between chemistry and industrially important semiconductor devices. These devices include 1) semiconducting electronic devices, 2) display devices, 3) power devices (solar and fuel cell), 4) bio/chemical sensors. The ultimate purpose of this subject is to improve the ability to correlate previously-learned chemical knowledges with the chemistry-applied device industries, and to utilize the chemical knowledges in these fields.
CHE307 Environmental Chemistry
Various pollutions of water, soil, and air region derived from the development of industry and increasing the population in large cities are discussed in this course. Basic chemical principles and classification of pollutions, chemical pathway and treatments are discussed in detail.
A major objective of this course is to provide a strong background in the structures and functions of biomaterials as like DNA, RNA, protein, lipid, and carbohydrate. A second goal is to teach a basic bioanalytical method and the application of such biomaterials to biosensor and biochip. A third aim is to introduce a wide range of techniques that are useful in modern bioanalytical chemistry.
CHM437 Medicinal Chemistry
The discovery and development of new agents for treating diseases, the structure-activity relationship of drugs, chemical synthesis , the isolation of natural-product drngs, and drug designs will be discussed in this course
Course Title : INTRODUCTION TO ENVIRONMENTAL MARINE SCIENCES
This is an exploratory course for the first year students in the College of Science and Technology, introducing specialties, research trends, job opportunities and courses of the Department of Environmental Marine Sciences to help the students understand the importance of Marine Sciences. Subjects such as diversity of marine biology, pollution affecting human lives, functions of oceans as a final clean up tank of man-made pollution, marine acoustics, marine geophysical exploration, plate tectonics, and natural resources from oceans are some of many interesting lecture titles. Team teaching and videos will maximize the learning efficiency for various subjects in marine sciences.
First semester of a two-semester calculus-based introductory physics course for science and engineering majors.This course will cover physics related to Newtonian mechanics, oscillations and waves, heat and thermodynamics.
This course consists of experiments about the basic conecpts of mechanics, measurement of physical quantities, and some physical properties of materials.
Language of chemistry, chemical calculations, gas, solution, chemical equilibrium, acid-base reaction are discussed in order to understand the basic principles explaining properties of substance, molecular structure, chemical change, rules of chemistry and related concepts.
Basic theoretical aspects of the general chemistry will be examined through observations and experiments. The basic laboratory techniques for the general chemistry will be practiced. Determination of physical and chemical properties of unknown samples, recrystallization, acid-base titration and determination of equilibrium constant will be handled.
Second semester of a two-semester calculus-based introductory physics course for science and engineering majors. This course will cover physics related to electricity, magnetism, geometrical and physical optics, relativity and quantum mechanics.
Modern chemistry is the one of basic tools in uderstanding the natural sciences. Based on the contents treated in previous semester, various contents of chemistry associated with pure science and engineering are treated in this course. Topics including atomic structure, electronic configuration and periodic table, chemical bond, bondign theory, molecular structure, liquid, solid, molecular force, chemical reaction, thermochemisty, electrochemistry and nuclear chemistry are discussed to understand the nature of matter and their applications.
The theoretical aspects of basic physical chemistry will be examined and practiced through observations and experiments. Calorimetric method, oxidation-reduction titration, synthesis of aspirin and the studies on Beer's law using an absorption spectroscopy will be handled.
This course will give the chance students to imporve their reading skill needed before taking their own major classes. This course is designed to focus on reading, but it'll deal with general knowlege of English such as listening, speaking and writing. Therefore with this course, students can improve their English communication skill.
This course is for the introduction of experimental methods based on the theories of physical chemistry: the vapor pressure of liquids, heat of solution, enthalpy of neutralization, partial molar volume in mixtures, phase equilibrium, viscosity measurements, and the determination of molecular weight.
CHM223 Experiments of Analytical Chemistry
Basic operations of chemical measurements are treated in this course. Out of quantitative measurements, gravimetry, volumetric analysis, acid-base analysis, environmental analysis, oxido-reduction analysis are treated.
This is a theoretical lecture to produce the knowledge of physical chemistry from the prgress of the natural laws in terms of the state function relationships, the model of molecular kinetics, phase diagrams, chemical reactions and chemical equilibria, activities of the nonelectrolytes and electrolytes in solution, and the electrical properties of the materials.
CHM236 Basic Concept of Organic Chemistry
This course will provide the broad basic knowledge of organic chemistry for the
beginner. The nomenclature of organic compounds, the basic organic reactions, and
the various compounds in nature will be introduced. From learning these basic
knowledge of organic chemistry, it will provide the backgrounds of the courses, organic
chemistry I & II.
The basic principles of qualitative and quantitative analysis are treated. Methods and principles of analysis and experimental errors, and calculations of stoichiometry or various chemical reaction are discussed. Volumetric, gravimetric, acid-base analysis and chemical equilibrium and numerical methods using computer are treated.
This course will focus on developing students¡¯ English communication ability through interaction with interesting and engaging topics. With an emphasis on speaking and listening, all four language skills are covered: listening, speaking, reading and writing. Lectures include grammar review, drills, and interactive exercises that will expand and sharpen student¡¯s English ability.
This is an applied course based on physical chemistry. As an extension of physical chemistry. This course covers chemical kinetics and dynamics, electrochemistry, basic quantum chemistry, chemical bonding and basic statistical mechanics.
In order to understand the theoretical concepts obtained from applied physical chemistry lecture, this course introduces instrumental methods, utilizing GC, FT-IR and UV&Visible spectrophotometer, refractometer, chemical reaction and Chemical structure Modelling & energe calculation(molecular mechanics calculation and Ab initio molecular orbital calculation) using PC and workstation.
CHM222 Organic Laboratory
In order to understand the theoretical concepts obtained from the organic chemistry lecture,
the laboratory section will cover the analysis of alcohols, amines, aldehydes, ketones, carboxylic
acids and derivatives, carbohydrates and various reactions, and isolation and purification with
methods of thin-layer chromatograpy, fractional distillation, recrystallization and identification of
structure by using infrared, nuclear magnetic resonance, and ultraviolet-visible spectroscopy
Course Title : Introduction to Inorganic Chemistry
As an introductory course to inorganic chemistry, atomic structures based on modern quantum theory, and periodic properties of the elements will be reviewed. The description of bonding based on valence bond theory and molecular orbital theory will also be discussed.
As an extension of quantitative chemical analysis, chemical equilibria of polyprotic acid-base, complex formation, and oxido-reduction are discussed indetail. As a part of chromatography, method of extraction, distillation are also treated. Basic principles of electroanalytical chemistry such as cyclic voltametry, polarography are also discussed in detail.
CHM261 Organic Chemistry
Electronic Structure and bonding, and the nomenclature, various reactions and synthesis of alkanes, alkenes, alkynes, alcohols, alkylhalides, arene and its derivatives, and the reaction mechanism of nucleophilic and electrophilic substitution, along with elimination and addition reaction, and stereochemistry in organic compounds will be covered in this course
The main goal of this course is to provide a strong knowledge base of English which you can build on in the future. We will focus on vocabulary, expressions, pronounciation and grammar. You will be asked to converse and write on different topics each class, and also there will be chances for free talking and writing within the framework of the given lesson.
The classification of instrumental analysis converting chemical signal to analytical signal, instrumental components and their related materials, properties of electromagnetic radiation, instrumental performance and properties are discussed in this course. From the basic electronics, computer interface, basic principles of absorption and emission of spectroscopy are treated. Principles of analysis for atomic absorption and emission (AAS, ICP), molecular absorption and emission (UV-Vis, Fluorescence, IR, Raman) spectroscopies are discussed in detail.
Molecular symmetry, acid-base and oxidation-reduction of inorganic compounds will be discussed. The nomenclature, molecular structures and basic properties of coordination compounds will also be discussed.
CHM307 Polymer chemistry
The first part of this course introduces to students the basic concepts and properties of
polymers, and the polymerization mechanism of radical, anionic, cationic and condensation
polymerization.
The second part will deal with new synthetic methods of polymers, concepts of blends and
composites, and the effects of molecular weights, its distribution, morphology and chemical
structure on mechanical properties.
Fundamental laboratory techniques for the synthesis and reactions of the representative main group elements and transition metal complexes will be practiced.
CHM338 Chemical Kinetics
The object of this course is to present experimental results and theories relating to the rates with which chemical reaction occur. Main subjects : Theories of reaction rates, Elementary gas-phase reactions, Elementary reactions in solution, Reactions on surface, Composite reactions, Reaction dynamics.
CHM343 Applied Organic Laboratory
This course contains a variety of experiments to introduce and illustrate important reactions commonly encountered in the applied organic chemistry. The synthesized organic materials in this course will be characterized by combining information obtained from NMR, infrared, ultra-violet, and mass spectroscopy.
CHM348 Applied Organic Chemistry
This is an applied course based on organic chemistry. As an extension of organic chemistry, the course will cover organometallics, aldehydes, ketones, carboxylic acids and their derivatives, amines, aryl halides, carbohydrates, amino acids, peptides, and nucleic acids. This course will provide an ability for the application based on the basic knowledge of organic materials.
CHM407 Quantum Chemistry
Basic principles of quantum mechanics to understand the electronic structure and and
chemical bonding in molecules: quantum mechanical postulates, Schroedinger equation,
particle in a box, harmonic oscillator, angular momentum, hydrogen atom, multi-electronic atoms, variation method, perturbation theory, diatomic molecule, polyatomic molecule, basic principles of molecular orbital calculation.
Course Title : Structural Analysis of Organic Compounds
CHM315 Spectrometric Identification of Organic Compounds
This course will introduce the basic principles of Nuclear Magnetic Resonance
Spetroscopy, Infrared Spectroscopy, Ultraviolet Spectroscopy, and Mass Spectroscopy.
The course will focus the spectral analysis of organic compounds using these spectral
methods.
Course Title : Application of Molecular Spectroscopy
CHM357 Application of Molecular Spectroscopy
Basic principles of molecular spectroscopy based on quantum theory: microwave, FT-IR,
Raman, UV, fluorescence, electron diffraction spectroscopy, applications of laser,
interpretation methods of spectroscopic data to elucidate the molecular structure and
dynamics.
This course is a continuation of the previous instrumental analysis. Spectroscopies frequently used in the chemical and biochemical area associated with researches of the recent fused researches including BT, ET and NT are selectively discussed. For example, spectroscopic analysis (NMR), separation methods(GC, HPLC, Electrophoresis), Mass analysis (MALDI-TOF, ESI-MASS, GC-MSD), electrochemical analysis (CV, Polarography). thermal analysis (TGA, DSC) and surface analysis (SEM, TEM, Microconfocal miscroscopy, AFM) are selectively treated in detail.
Basic instrumental principles related with quantitative chemical analysis and instrumental analysis are discussed to characterize material. Simple synthesis, separation and purification method, and principles of measurement of various instruments, method spectral interpretation are treated.
As the fast development of industry, environmental disruptions become more serious enough to threaten our lives. Basic theory of environmental resources, environmental analysis and standard methods of the elimination of various pollutants are lectured for water pollution, air pollution and soil pollution. Frequently used instrumental analysis in environmental analysis are selectively treated.
A major objective of this course is to provide a strong background in the structures and functions of biomaterials as like DNA, RNA, protein, lipid, and carbohydrate. A second goal is to teach a basic bioanalytical method and the application of such biomaterials to biosensor and biochip. A third aim is to introduce a wide range of techniques that are useful in modern bioanalytical chemistry.
