| Course title | |||||
| 線形代数学Ⅱ [Linear Algebra Ⅱ] | |||||
| Course category | specialized courses/ major subjects | Requirement | Credit | 1 | |
| Department | Year | 1~4 | Semester | Fall | |
| Course type | Fall | Course code | 02c1315 | ||
| Instructor(s) | |||||
| 岡崎 伸 [OKAZAKI Shin] | |||||
| Facility affiliation | Faculty of Agriculture | Office | Email address | ||
| Course description |
|
Experiments in Fundamental Science is the first experimental lesson after entering university. Students learn basic experimental methods and attitude (safety management, report preparation, etc.). These experiments consist of two parts, "Experiments of Basic Chemistry" and "Experiments of Physics". Location: "Experiments of Basic Chemistry":Building 1, 3F, Rooms 301-306 "Experiments of Physics": Building 4, 2F, Rooms 201 and 204 [Experiments of Basic Chemistry] Students will learn fundamental skills and knowledge of inorganic analytical chemistry. [Experiments of Physics] Students will learn basic knowledge of physical chemistry and experimental techniques of material science. After these experimental lesson, students will be ready to conduct your graduation research as an expert experimentalist. Google Classroom code: 3t5mmdk |
| Expected Learning |
|
Students who successfully complete this course will be able to : ・Make experimental preparation. ・Handle experimental tools properly. ・Evaluate experimental results. ・Treat experimental data appropriately. ・Have comprehensive discussions. ・Write reports precisely and properly. ・In addition, you will also learn about calibration of glassware, errors and significant figures, quotations and references. Corresponding criteria in the Diploma Policy: See the Curriculum maps. |
| Course schedule |
|
Guaidance①: Orientation including course schedules, prerequisites, assessment/Grading, and the safety training. Guaidance②: Lecture about research ethics, writing experimental reports, physical quantity, SI units, and significant figures. [Experiments of Basic Chemistry] Orientation and safety training specific to chemical experiments. 1. How to use the basic experimental equipment for analytical chemistry: volumetric flask、pipette、burette、and electric balance. 1. Measurement of solution concentration: Preparation of solutions of known concentrations using volumetric flask. 2. Calibration of one-mark pipette: Understanding an importance of systematic error in experimental measurements. 3. Measurement of solution density: Preparation of aqueous solutions of NaCl of various concentrations. Calculation of the density of each solutions. Determination of the concentration of sample solutions from calibration curve (density vs concentration). 4. Management of Chemical Reagents and Solvents (Poisonous Materials): Lecture for classification, management, and handling of Chemical Reagents and Solvents (Poisonous Materials) together with the related laws and regulations. 5. Extraction of caffeine: Understanding the principle of experimental procedures, how to search the chemical and physical properties of reagents, how to write the follow charts throughout the case study of extraction of caffeine. [Experiments of Physics] Orientation and safety training + seminar about experiments + experiments as follows; 1. Simple harmonic oscillation (Examining spring constant and elastic strain energy of spring from an observation of simple harmonic oscillation of spring) 2. Coupling pendulum (You will learn a theory of coupled vibration from connected two simple pendulum) 3. Resonance of air core (You will examine wave motion from the measurement of their frequency) 4. Direct current (DC) circuit measurement (You will learn basic techniques about the measurement of voltage, current, and resistance) 5. Alternating current (AC) circuit measurement (You will learn about phase and complex numbers on AC circuit) |
| Prerequisites |
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Students are required to prepare for each experiment in order to take reasonable care for your safety and for all other students. You should read the textbook thoroughly to understand the contents of the experiments (5 h). After each experiment, the students have to write an experiment report and submit it within the due date (15 h). In addition to 25 hours that students spend in the class, students are recommended to perform the above task using the textbook and the references specified below. In completing this course, students will spend the standard amount of time as specified by the University. All students are required to join the Disaster and Accident Insurance for Students (GAKKENSAI). Students may not work in the lab without complete compliance with the safety policy, which will be announced at the course guidance (1st day) in detail. |
| Required Text(s) and Materials |
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The original textbook ed. by our department for lab courses. |
| References |
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Reference books are useful for understanding the experiments scheduled in this course and analyzing the data.These can be available in our University Library. Jikkenn wo anzen ni okonautameni and Zoku Jikkenn wo anzen ni okonautameni (the manuals for Safe Experiments in English), ed. Kagaku Dojin (written in Japanese) [Experiments of Physics] Introduction of Physics (Y. Hara), Physical chemistry (P. W. Atkins) |
| Assessment/Grading |
|
Standard study time set by our university is required to get the grade. The rate of evaluation is as follows. Normal score (every time), 50%: efforts / participation in experiments, attitudes to learn, completeness of preparations for experiments, proficiency in experimental techniques will be evaluated. Reports (containing problems related to the experiments, assignment tests), 50%: the status of submission and the completeness of reports (that is correct understanding of experimental contents, accurate reports of experimental results, and appropriate discussion about the results) will be evaluated. Grade will be given according to the following criteria: S: ≧90 points, A: 90> and ≧80 points, B: 80> and ≧70 points, C: 70> and ≧60 points. If you have unexcused absences, arriving in class late, and late and/or missing reports, you may not receive a passing grade. Past grade distribution 2021 S: 2%; A: 83%; B: 8%; C: 1%; D: 6% 2022 S: 6%; A: 87%; B: 4%; C: 0%; D: 4% |
| Message from instructor(s) |
|
In this class, you should make a serious effort and attempt to interpret the chemical phenomenon based on the principle so that you can reach a professional level as an individual chemist. Take part in experiments (including group experiments) with positive attitude individually despite of group training |
| Course keywords |
| Volumetric Analysis; Titration/ Colorimetric analysis; Oscillation/Vibration; Electrical Circuits; Basic Experiment; Inorganic Chemistry; Organic Chemistry; Physical Chemistry |
| Office hours |
| A/N Contact information will be shown in the handout distributed at the course guidance. |
| Remarks 1 |
| Remarks 2 |
| Related URL |
| Lecture Language |
| Japanese |
| Language Subject |
| Last update |
| 2/18/2023 5:45:54 PM |