学部・大学院区分
Undergraduate / Graduate
農学部
時間割コード
Registration Code
0910807
科目区分
Course Category
専門基礎科目
Basic Specialized Courses
科目名 【日本語】
Course Title
有機化学1
科目名 【英語】
Course Title
Organic Chemistry I
コースナンバリングコード
Course Numbering Code
担当教員 【日本語】
Instructor
SHIN Jiyoung ○
担当教員 【英語】
Instructor
SHIN Jiyoung ○
単位数
Credits
2
開講期・開講時間帯
Term / Day / Period
秋 水曜日 1時限
Fall Wed 1
対象学年
Year
2年
2
授業形態
Course style
講義
Lecture


授業の目的 【日本語】
Goals of the Course(JPN)
このコースは、入門的な有機化学の理解を促進し、学生が基本的な有機化学を理解するための論理的なフレームワークを構築するのに役立つように開設されました。
授業の目的 【英語】
Goals of the Course
This course was designed to promote an understanding of introductory organic chemistry and to help students build a logical framework for understanding fundamental organic chemistry.
到達目標 【日本語】
Objectives of the Course(JPN)
このコースの主な目的は、学生が基本的な有機化学を理解するための論理的なフレームワークを構築するのを支援することです。 このコースでは、有機分子構造と電子密度組成が有機化学反応のパターンにどのように関連しているかを強調します。 コースの内容から学んだ知識に基づいて、分子内または分子間有機反応のメカニズムを調査し、進行性反応シーケンスの問題を解決することを求めます。
到達目標【英語】
Objectives of the Course
授業の内容や構成
Course Content / Plan
Class 1. Structure Perspective of Organic Molecules --- Atomic Electron Configuration and Construction of Organic Molecules (Hybridization).
Class 2. Projection of Molecular Structures of Organic Molecules and Classification of the Isomers --- Constitutional (Chain, Position, and Functional Group) Isomers and Stereoisomers (Diastereomers and Enantiomers).
Class 3. Optical Activities of Stereoisomers and Assignment of Stereoisomeric Structures --- Fischer and Newman Projections; Absolute configurations(R/S) and Optically Observed (D/L) Rotations; Specific Rotation and Enantiomeric Purity; Meso Compound.
Class 4. Electron Density Configuration of Organic Molecules and Their Acidity/Basicity --- Formal Charges and Oxidation States; Acidity/Basicity and Electrophilicity/Nucleophilicity; Type of Chemical Reactions.
Class 5. Potential Energy Profiles for Kinetically and Thermodynamically Favorable Reactions --- Stability of Carbocations, Carbanions, Hydrocarbon Radicals, and the Stabilization Factors (Hyperconjugation and Resonances).
Class 6. Assessment of the Classes 1-5 with Practice Problems.
Class 7. General Trends of Aliphatic Nucleophilic Substitutions and Bimolecular Reactions (SN2) --- Efficient Substrates and Proper Leaving Groups; Reactivity of Nucleophiles and Solvent Effect; Stereochemistry; Competing Reactions.
Class 8. Unimolecular Aliphatic Nucleophilic Substitutions (SN1) --- Efficient Substrates and Proper Leaving Groups; Nucleophilicity and Solvolysis; Stability of Carbocation Intermediate; Stereochemistry; Competing Reactions.
Class 9. Aliphatic Eliminations --- Unimolecular (E1 and E1CB) and Bimolecular (E2) Eliminations; Thermodynamically and Kinetically favored (Zaitsev and Hofmann) Eliminations.
Class 10. Types of Nucleophiles and Haloalkanes and Their Reaction Trends/Overview (Substitutions & Eliminations).
Class 11. Assessment of the Classes 7-10 with Practice Problems.
Class 12. Nomenclature of Organic Compounds --- Saturated/Unsaturated Hydrocarbons; Functional Groups; Aromatic Hydrocarbons; Stereochemical Assignments; Fused Rings (Spiroalkanes and Bicyclo/Tricycloalkanes).
Class 13. Structures and Stereochemistry of Cycloalkanes and their Stability and Reactivity.
Class 14. Preparation of Haloalkanes (Radical Reactions) --- Potential Energy Profiles of Reaction Coordinates.
Class 15. Assessment of Overall Classes with Practice Problems (1-14).
履修条件・関連する科目
Course Prerequisites and Related Courses
The students who registers for this course should complete ‘Fundamentals of Chemistry I and II'.
成績評価の方法と基準
Course Evaluation Method and Criteria
Examination [total 70%: two midterms (20% for each) and one final (30%)] and Assignment of Homework and Attendances (30%): S(x90), A(90>x80), B(80>x70), C(70>x60), and F(60>x) for the students who entered earlier than 2020; A+(95), A(95>xx80), B(80>x70), C(70>x65), C-(65>x60), and F(60x) for the students who entered in 2020 or later than 2020. The assessment methods will be reconsidered due to the change of the pandemic condition. Whoever provides any suspicious action in any exam will lose his/her total credits of all coursework in the current semester, based on the University law. Submission of the "Course Withdrawal Request Form is necessary to withdraw the course. The student needs to contact the course instructor when the student wants to withdraw from the course. No submission of sickness/absence reports and lack of attendance score will result in an 'F' grade: It is for the protection of attendances in the corresponding course from the frequent absences of the specific/uncertain student(s).
教科書・テキスト
Textbook
Organic Chemistry: Structure and Function (Eighth Edition), Peter K. Vollhardt and Neil Schore, (W. H. Freeman and Company), New York, 2018, Chapters 1-7.
参考書
Reference Book
Organic Chemistry (second edition), Jonathan Clayden, Nick Greeves, and Stuart Warren (Oxford University Press), 2012 ISBN-10:0199270295.
課外学習等(授業時間外学習の指示)
Study Load(Self-directed Learning Outside Course Hours)
Students are recommended to prepare each lecture by reading the corresponding chapter in the textbook and to review it by solving the related homework questions. Each assignment should be submitted at the begin of the next class. Late or no submission of the assignment is the deduction point of the grade.
使用言語
Language Used in the Course
English
授業開講形態等
Lecture format, etc.
This course is a lecture based course. Participants can have lecture materials for the classes through NUCT.
遠隔授業(オンデマンド型)で行う場合の追加措置
Additional measures for remote class (on-demand class)
There is no video option. The lectures can be changed either in-person or online by discussing with the students.