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- BKO6001,6002 General Chemistry (1),(2)
- This course covers the fundamental chemistry knowledge of engineering students across the spectrum of chemistry, including the basic laws of chemistry, fundamental theories of thermodynamics, atomic and molecular theory, solution theory, phase and chemical equilibrium, reaction kinetics, and the fundamentals of electrochemistry, organic chemistry, and biochemistry.
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- BKO6003,6004 General Chemistry Laboratory (1),(2)
- Learn basic experimental methods such as qualitative analysis and experimental confirmation of basic chemistry principles.
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- BKO6005,6006 General Biology (1),(2)
- Learn the fundamental biological knowledge required of an engineering student, including the characteristics, metabolism, heredity, development, evolution, classification, and environment of organisms.
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- BKO6007,6008 General Biology Experiment (1),(2)
- An introduction to the broad area of biology, emphasizing helping you understand basic biology.
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- BKO6010,6023 General Physics (1),(2)
- Understand the basic principles of physics and physical phenomena, and acquire the basic physical knowledge required for engineering students, such as quantity measurement, work and energy, mechanics, and thermodynamics.
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- BKO6011,6024 General Physics Laboratory (1),(2)
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The purpose is to learn the principles of nature through basic experiments and to develop scientific inquiry through direct experimentation.
In addition, these experiments develop the basic skills necessary for advanced chemical experiments.
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- BKO6016 Differential Integrand Calculus(1)
- The basic mathematics theory covers limits and continuity of functions, derivatives, polar coordinates, integral and definite integrals, and more.
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- BKO6020 Differential Integrand Calculus(2)
- Continuing from Math (1), this course covers basic mathematics theory, including partial derivatives, multiple integrals, series, matrices, and determinants.
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- BKC6001,6005 Organic Chemistry (1),(2)
- It covers the study of the nomenclature, properties, structure, preparation, and uses of organic compounds, the identification of structures by spectroscopy, and the reactions and mechanisms of organic reactions.
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- BKC6002 Physical Chemistry (1)
- Based on the laws and fundamental principles of thermodynamics, it deals with the relationships and changes between various energies in physical and chemical processes from a macroscopic perspective.
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- BKC6003,6011 Analytical Chemistry Laboratory
- Students learn how to apply fundamental theories and principles of qualitative and quantitative analysis to analyze the components of real unknown substances qualitatively and quantitatively.
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- BKC6004 Analytical Chemistry (1)
- This course covers the fundamental theories of qualitative and quantitative analytical chemistry, which is the chemistry theory for identifying the types of components that make up a substance and their ratios, as well as physical and chemical identification methods.
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- BKC6006 Physical Chemistry (2)
- This course introduces the theory of quantum mechanics to understand the structure and properties of atoms and molecules. It systematizes the theory of chemical bonding and the fundamental idea of spectroscopy.
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- BKC6007 Organic Chemistry Laboratory
- Develop the ability to handle more complex organic reactions through practical experiments in the separation, purification, synthesis, and identification of organic compounds, which are necessary for an experimental understanding of chemistry.
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- BKC6012 Inorganic Chemistry (1)
- This course introduces the fundamental theories and principles of inorganic chemistry, including atomic structure and periodicity, symmetry and group theory, chemical bonding, molecular structure, and solid-state structure, and covers solution and acid-base chemistry from an inorganic chemistry perspective.
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- BKC6017 Physical Chemistry Laboratory
- Students develop the ability to conduct scientific research by materializing the abstract concepts and principles covered in physical chemistry lectures through experiments and acquiring the characteristics and operation of simple physical and chemical measuring instruments.
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- BKC6028 Inorganic Chemistry Laboratory
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Students experience and learn the basic principles of inorganic chemistry and the properties and reactions of inorganic compounds through synthesis, purification, analysis, and confirmation experiments.
In addition, you will learn the essential skills required for inorganic chemistry experiments.
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- BKC6008 Analytical Chemistry (2)
- This course covers the principles and fundamentals of Neutralization Titration, Precipitation Titration, Redox Titration, Chelatometric Titration, and Gravimetric Titration in quantitative analytical chemistry.
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- BKC6009 Computers in Chemistry
- This course covers methods for processing and analyzing experimental data using computers, as well as techniques and applications of computational and numerical methods for solving common applied problems in chemistry using computers.
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- BKC6010 Electrochemistry
- This course covers the equilibrium and movement of electrolyte solutions, the relationship between chemical reaction energy and electrical energy, electrode reactions, and electrochemical synthesis, and lectures on electrochemical analysis methods.
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- BKC6013 Organic Chemistry (3)
- This course covers theoretical aspects of the structure, reactivity, and reaction mechanisms of organic compounds for chemistry students.
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- BKC6014,6020 Biochemistry (1),(2)
- It covers the synthesis and catabolism of substances in cells, the transmission of genetic information in cells, the interrelation and control of various metabolic processes, and the mutual influence of cells to form an understanding of the existence of cells as living organisms.
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- BKC6016 Molecular Spectroscopy
- This course establishes the theoretical foundations and provides examples of spectroscopy used across chemistry.
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- BKC6037 Theories of Science Education
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This course aims to give students an introduction to science education overall, to help them understand it, and to build a foundation for progression to more advanced courses.
Therefore, this course presents the direction of science education, including the interaction between modern society and science, so that students can understand the need and purpose of science education. It also includes theoretical approaches, such as the context and meaning of science education and the nature of science, as well as practical content, such as science learning models and science teaching techniques.
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- BKC6015 Inorganic Chemistry (2)
- This course introduces coordination chemistry and organometallic chemistry, which are the core fields of inorganic chemistry, focusing on structure and reactivity, and explores the major theories and principles involved.
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- BKC6018 Advanced Organic Chemistry
- This course provides students with an understanding of the fundamental theories of organic chemistry, including the materials, nomenclature, preparation, and reactivity of organic compounds, and the new contents of modern organic chemistry, such as stereochemical spectroscopy and structure, molecular orbital function theory, and neighboring group effects.
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- BKC6019 Instrumental Analysis
- This course covers the principles of compound analysis using analytical instruments and the structure and operation of analytical tools to separate various mixtures or compounds. You will learn to select appropriate analytical instruments for analyzing content and interpreting molecular structures.
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- BKC6021 Polymer Chemistry
- 고분자의 기본개념, 고분자 물질의 분류 및 특성, 고분자 물질의 각종 합성법, 구조와 물성 등에 관한 일반적 이론, 고분자 재료의 공업적 응용 등에 관하여 강의한다.
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- BKC6022 Photochemistry
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This course introduces the kinetic theory of gasses and the molecular motion in liquids and uses it to study the specific conditions and processes of chemical reactions.
Summarize the basic forms of chemical reactions and list their characteristics and differences.
Identify mechanisms based on determined chemical reaction kinetics and study related chemical kinetics.
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- BKC6023 Instrumental Analysis LaBoratory
- Students will learn to apply the theory and principles of modern analytical instruments that enable microscopic composition and structure determination of materials to practical analysis.
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- BKC6024 Polymer Chemistry LaBoratory
- This course is designed to provide a general understanding of polymer chemistry and materials and conduct experiments on the synthesis, purification, and characterization of polymer materials (viscometry, IR, NMR, GPC).
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- BKC6025 Quantum Chemistry
- Develop an understanding of the fundamental theorems of quantum mechanics and apply them to chemical problems. The structure and properties of matter are studied at the microscopic level through the interactions of its constituent molecules.
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- BKC6026 Advanced Inorganic Chemistry
- This course covers group theory from the inorganic chemistry perspective, which is widely used to study the properties, structure, and spectroscopic analysis of inorganic compounds. It also introduces the major fields of modern inorganic chemistry, such as solid-state and bioinorganic chemistry, in a topic-based way.
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- BKC6027 Spectroscopical Measurement with Experiments
- Establish the theoretical basis of advanced spectroscopic equipment and learn how to use and apply the equipment through experiments.
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- BKC6029 Biochemistry LaBoratory
- This course teaches students how to separate, purify, quantify, and identify proteins needed to conduct biochemical research, extract enzymes, and test their properties through kinetic experiments.
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- BKC6035 Advanced Physical Chemistry
- Through experiments, this course materializes the abstract concepts and principles covered in physical chemistry lectures. In addition, students acquire the characteristics and operation of simple physical and chemical measuring instruments to develop the ability to conduct scientific research.
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- Nano Chemistry
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This lecture aims to provide a general and fundamental understanding of the development of nanotechnology, which is actively taking place around the world to overcome the limitations of today's microtechnology.
The core contents of this course include types and properties of nanomaterials, biomaterials, molecular self-assembly, types and principles of nano high-tech equipment, bottom-up and top-down approaches, and applications of nanotechnology.
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- Medicinal Chemistry
- This course extensively covers the basic knowledge required for new drug development, including synthetic design, synthesis, toxicity and efficacy of organic drugs, and manufacturing methods to improve reaction efficiency.
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- Enviroment and Human Heath
- Understand the fundamental interactions between the environment and the human body, how the body responds to and damages changes in the environment, and highlight examples of factors that significantly impact the modern human living environment.
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- BKC6031 Molecular Structure Analysis
- Students will learn how to determine molecular structures using various structural analysis methods through a theoretical and practical foundation.
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- BKC6032 Industrial Inorganic Chemistry
- This course introduces the manufacturing process, properties, and uses of the leading products in the inorganic chemical industry, including inorganic pharmaceuticals, fertilizers, metals, electrochemicals, ceramics, and new weapon materials.
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- BKC6033 Environmental Chemistry
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It's about understanding the interactions between the environment and humans in chemical terms and dealing with problems.
Understand the cycle of chemical hazardous substances in the natural environment and learn how to analyze them. The course covers current issues such as energy utilization and waste that cause environmental pollution.
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- YAA9808 Theories of Subject-Matter Education
- This course is designed for students who have taken the theory of science education in principle and covers specific applications and practical contents of chemistry education.
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- YAA9908 The Study of Subject-Matter Education
- This course is designed for secondary school teachers to practice, discuss, and analyze various learning guidance methods such as textbook preparation, lesson plan writing, teaching tips, and evaluation methods necessary to teach science courses.
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- Logic and Essay Writing
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This course aims to develop the ability of secondary school teachers to describe their subject knowledge of chemistry logically.
Practice and analyze discussions to develop logical thinking and writing consistent with the characteristics of chemistry.
풀팝업(1 개)
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