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メディア授業とは,メディアを利用して遠隔方式により実施する授業の授業時数が,総授業時数の半数を超える授業をいいます。
メディア授業により取得した単位は,卒業要件として修得すべき単位のうち60単位を超えないものとされています。
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In Analytical Chemistry II class, instrumental analysis methods are covered.
Specifically, the lecture will cover the chemical equilibria involved in absorption spectrophotometry, fluorescence spectrophotometry, atomic spectroscopy, atomic emission spectroscopy, and chromatography, the role of analytical indicators, and the handling and manipulation of samples.
The importance of analytical and measurement chemistry in the chemical industry will also be introduced by the lecturer (KA), who has worked in the research and development department of a chemical manufacturer.
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Analytical chemistry is one of the core branches of chemistry. Based on the principles learned in Analytical Chemistry I, students will systematically understand various analytical techniques and acquire specialized knowledge.
Students will gain an understanding of the principles behind various instrumental analysis methods and learn how to manage, process, and logically analyze data in analytical approaches.
🟦Learning Objectives:🟦
1️⃣Knowledge and Understanding:
*Understand the fundamentals of analytical chemistry.
*Develop an understanding of solution chemistry.
2️⃣Critical Thinking and Judgment:
*Learn qualitative and quantitative methods, which are fundamental to chemistry.
3️⃣Interest and Motivation:
*Analytical chemistry explores methodologies to extract truth and reality from chemical phenomena.
*Students are encouraged to take an interest in everyday phenomena and apply the knowledge acquired in this course to understand and explain their mechanisms.
4️⃣Attitude:
*Emphasis is placed on developing a deep understanding of concepts rather than rote memorization.
5️⃣Skills and Expression:
Acquire the ability to analyze and explain phenomena from a chemical perspective.
6️⃣Additional Considerations:
Students are expected to study not merely for credit acquisition but with an awareness of the purpose of learning for their future.
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This course covers the principles and applications of various instrumental analysis methods.
In this course, we will discuss separation and measurement techniques using light, which is the most widely used technique in chemical analysis.
The course also covers chromatography, which is used in a variety of fields, and electrophoresis, which is essential for bioanalysis.
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第1回
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Guidance
Instrumental analysis
Spectroscopy
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Electromagnetic analysis, electrical analysis, separation analysis, absorption of light, rotational spectrum, vibrational spectrum, electronic spectrum
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第2回
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Absorption spectrophotometry (1)
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Absorption spectrum, Lambert-Baer law, molar absorption coefficient
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第3回
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Absorption spectrophotometry (2)
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Absolute calibration, spectrophotometry, colorimetric analysis, chromogenic reagents
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第4回
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Fluorescence spectrophotometry (1)
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Ground state, excited state, fluorescence emission, phosphorescence and fluorescence spectra
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第5回
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Fluorescence spectrophotometry (2)
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Fluorometer, fluorescent reagent, quenching action
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第6回
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Atomic spectrophotometry
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Atomic Absorption, Atomic Spectral Line, Holocathode Lamp, Atomic Absorption Spectrophotometer Inductively Coupled Plasma, Detector (AES/MS)
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第7回
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Flame spectrophotometry
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Flame colour reaction, interference, internal standard method, standard addition method
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第8回
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Mid-term summary and mid-term examination
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Summary of the 1st to 7th lectures
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第9回
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Atomic emission spectrometry (1)
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Plasma, ionisation and emission spectrometry
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第10回
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Atomic emission spectrometry (2)
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Spectral lines, spectral interferences, dynamic range
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第11回
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Solvent extraction
Solid phase extraction
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Distribution coefficient, chelating reagents, metal chelates
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第12回
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Fundamentals of chromatography
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Ion-exchange chromatography, size-exclusion chromatography, thin-layer chromatography, column efficiency, theoretical stages, qualitative and quantitative
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第13回
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Gas chromatography
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Packed Columns, Capillary Columns, Detectors, Derivatization
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第14回
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Liquid chromatography
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High performance liquid chromatography [HPLC], ion chromatography, gel permeation chromatography [GPC], column fillers, detectors, normal and reversed phase
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第15回
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Electrophoresis
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Capillary electrophoresis, electroosmotic flow, capillary zone electrophoresis, micellar electrokinetic chromatography
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第16回
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Terminal examination
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Summary of the 9th to 15th lectures
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※AL(アクティブ・ラーニング)欄に関する注
・授業全体で、AL(アクティブ・ラーニング)が占める時間の割合を、それぞれの項目ごとに示しています。
・A〜Dのアルファベットは、以下の学修形態を指しています。
【A:グループワーク】、【B:ディスカッション・ディベート】、【C:フィールドワーク(実験・実習、演習を含む)】、【D:プレゼンテーション】
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A: --% B: --% C: --% D: --%
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Midterm Exam: 50%
Final Exam: 50%
※Attendance is a disqualifying criterion, and five or more absences will result in disqualification.
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クリスチャン分析化学【II.機器分析編】
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9784621301104
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Gary D. Christian, Purnendu K. Dasgupta, Kevin A. Schug [著] ; 壹
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丸善出版
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2016
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クリスチャン分析化学【I.基礎編】
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9784621301098
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Gary D. Christian, Purnendu K. Dasgupta, Kevin A. Schug [著] ; 壹
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丸善出版
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2016
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備考
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備考
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Since there are many other related reference books in the library, it is advisable to find a book that is suitable for you and teach yourself.
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Acids and bases, oxidation and reduction, inorganic compounds, energy, thermodynamics, chemical potentials, chemical equilibrium, measurement, spectroscopy
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| (水・衛生)すべての人々の水と衛生の利用可能性と持続可能な管理を確保する。 |
| (エネルギー)すべての人々の、安価かつ信頼できる持続可能な近代的エネルギーへのアクセスを確保する。 |
| (インフラ、産業化、イノベーション)強靱(レジリエント)なインフラ構築、包摂的かつ持続可能な産業化の促進及びイノベーションの推進を図る。 |
| (持続可能な生産と消費)持続可能な生産消費形態を確保する。 |
| (気候変動)気候変動及びその影響を軽減するための緊急対策を講じる。 |
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Kenta Adachi, Ph.D.
Telephone: 083-933-5731 (Faculty of Science Building 1: Room 441)
Email: k-adachi@yamaguchi-u.ac.jp
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