| Course title | |||||
| 基礎分子生物学 [Basic Molecular Biology] | |||||
| Course category | Requirement | Credit | 2 | ||
| Department | Year | 1~ | Semester | Fall | |
| Course type | Fall | Course code | 05TC0105 | ||
| Instructor(s) | |||||
| 宮本 淳一 [MIYAMOTO Junichi] | |||||
| Facility affiliation | Faculty of Agriculture | Office | Email address | ||
| Course description |
|
1. Based on the lecture on measurement engineering, while discussing measurement for agriculture, biology, environment, etc., understand the use for control and application to modeling. 2. Understand the principles and examples of microbial fuel cells, as well as the latest findings, and discuss future prospects. |
| Expected Learning |
|
1. Understand measurement technology and its applications for agriculture and biology 2. Understand trends in research and development related to energy production using the ability of microorganisms For perspectives on the Diploma Policy, please refer to the curriculum map of our university HP (3 policies). https://www.tuat.ac.jp/campuslife_career/campuslife/policy/ |
| Course schedule |
|
1. Formulated description of the model 1-1 Overview of Labras conversion 1-2 Laplace transform 1-3 Laplace inverse transform 1-4 Solving differential equations by Laplace transform 2. Measurement and control 2-1 Various measurements (presentations by students) 2-2 Overview of measurement engineering 2-3 Accuracy, number of samples and variability in measurement 2-4 Systematization of measurement Various measurements 2-5 AD conversion 2-6 Application to control 3. Energy and microbes 3-1 Anthropocene Agricultural Environment Issues and Countermeasures by Microbial Utilization Technology: Taking Nutrient Circulation as an Example 3-2 Physiological ecology of electrically active microorganisms (microorganisms that produce and eat electricity) in the environment 3-3 Basics and characteristics of microbial electrochemical system using electroactive microorganisms 3-4 Energy / substance conversion technology and environmental purification technology using microbial electrochemical system 3-5 Student presentation and discussion |
| Prerequisites |
| According to the university establishment standard, 90 hours of study is a standard course for 2 credits in this course. Assuming that one piece (90 minutes) is learning for 2 hours, 15 lessons are converted as learning for 30 hours. 60 hours of preparation and review are required to meet the standard learning time. |
| Required Text(s) and Materials |
| Slides and handouts will be prepared. |
| References |
|
Chemical Process Control: An Introduction to Theory and Practice (Prentice Hall International Series in the Physical and Chemical Engineering Sciences) Computer Simulation in Biology: A BASIC Introduction, James D. Spain & Robert E. Keen , Wiley-Liss |
| Assessment/Grading |
|
A mark given for class participation (participation in discussions, efforts for small tasks, etc.) 50%, reports / exams 50% The evaluation is made from the following two perspectives. 1. 1. Understanding of measurement technology and its applications for agriculture and biology. 2. Understanding the latest information on energy production using the power of microorganisms. |
| Message from instructor(s) |
| You can better understand what you have learned by explaining it to others. |
| Course keywords |
| mathematical models, simulations, energies, microbes |
| Office hours |
| We recommend questions during classd and immediately after class. It is possible to respond at any time by email. |
| Remarks 1 |
| For changes in class schedule due to the effect of COVID-19 infection, please check in the classroom of this subject. |
| Remarks 2 |
| Related URL |
| Lecture Language |
| Japanese |
| Language Subject |
| Last update |
| 3/2/2023 1:35:20 PM |