A0521300
3
Experiment in Mechanical Engineering3
In this course, students conduct engineering experiments related to the fundamental topics in the mechanical engineering fields
(Mechanics of Materials, Hydrodynamics, Thermodynamics, Mechanical Vibrations and Control Engineering). Students control experimental
apparatuses by themselves and recognize the physical phenomena.
Students have to attend the first lecture. For reference, themes conducted in 2019 are introduced as follows.
Students have to attend the first lecture. For reference, themes conducted in 2019 are introduced as follows.
The objective of this course is to equip the students with the skills necessary to conduct engineering experiments. It includes
・recognizing various physical phenomena
・understanding general principles of measurement systems
・performing basic data analysis
・recognizing various physical phenomena
・understanding general principles of measurement systems
・performing basic data analysis
- Ability to conduct basic experiments related to mechanical engineering using the measurement system
- Ability to use appropriate graphs or tables to display and interpret results
- Ability to analyze and interpret experimental data using software used by mechanical engineers
- Ability to discuss the experimental results
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required |
|---|---|---|
| General exam in mechanical engineering In the first lecture, the general exam is designed to ascertain the student's general knowledge of the fundamental topics in the mechanical engineering fields. The general exam is given for each thematic area held in 1st and 2nd year’s lecture course: Mechanics of Materials, Hydrodynamics, Thermodynamics, Mechanical Vibration and Machine Design & Drawing. The exam is written in English. |
Reconfirm the general knowledge of the fundamental topics in the mechanical engineering fields. | 120minutes |
| Orientation Schedule, grouping, grading, general precaution and precaution for each theme. The handout summarizing the detailed schedules is distributed to all students at the first lecture. |
Read the general lab manual for mechanical engineering. | 20minutes |
| Guidance of safety The knowledge of safety in conducting experiments. |
Read the manual for safety | 60minutes |
| Experimental themes Each group conducts the following themes in accordance with the schedule. Students need to prepare their lesson referring to following. |
Read the lab manual for the theme. | 10minutes |
| Submission of report Experiment reports should be submitted due the next week experiment. The format of the report (e.g., use or not MS Word or Excel) and the method of submission (e.g., printed or pdf file submission) are to follow the instructions of the supervisor. |
Read the lab manual for the theme. | 10minutes |
| Feedback for reporting If a report cannot be accepted in one session, the student may be required to submit the report multiple times and receive report guidance. The report instructions will be given by the instructor in charge of each experiment or by the TAs. In order to receive credits, the reports on all topics should be accepted. |
Read the lab manual for the theme. | 10minutes |
| (1) Frictional vibration(Saeki) The acquisition of fundamental knowledge regarding vibration problems is important in mechanical design. This experiment focuses on the frictional vibration of the single degree of freedom system. This experiment provides insight to vibration through hands-on demonstration and experimentation. |
Read the lab manual for the theme. | 20minutes |
| Analysis of data and reporting of experimental results | 230minutes | |
| (2) Uncertainty analysis (Tsunoda) Measurement is a fundamental process in approaching engineering problems. However, all measurements of variable contain inaccuracies. Therefore it is important to understand appropriate techniques of measurement data analysis. In the present experiment, students will measure the sizes of simple objects and conduct uncertainty analysis. |
Read the lab manual for the theme. | 20minutes |
| Analysis of data and reporting of experimental results | 230minutes | |
| (3) Temperature measurement (Yahagi) Temperature is a very important quantity of state, and measurement accuracy of temperature is very important issue in quantifying phenomena. There are a lot of temperature measurement methods and those have advantages and disadvantages. In this theme, we make a temperature measuring device and learn how to use it in experientially. |
Read the lab manual for the theme. | 20minutes |
| Analysis of data and reporting of experimental results | 230minutes | |
| (4) Frequency Analysis and Digital Filter (Uchimura) This course aims to acquire the theory and method for analyzing vibration phenomena such as mechanical vibration and radio waves in the frequency domain. After actually sampling the signal in discrete time by A/D conversion, spectrum analysis is performed by digital Fourier transform and fast Fourier transform (FFT) by the program created by itself. Also, to eliminate the noise contained in the data, build a digital low-pass filter and learn about the effect of the filter. |
Read the lab manual for the theme. | 20minutes |
| Analysis of data and reporting of experimental results. | 230minutes | |
| (5) Tesile tests for metallic materials (Sakaue) Characteristics of materials such as Young's modulus, tensile strength etc. are extremely important, because these characteristics are frequently used for designing machines and structures. Tensile test is widely used to evaluate the characteristics, therefore, mechanical engineer must understand the method of tensile tests. This experiment measures the characteristics of typical metallic materials in order to understand the evaluation method and mechanical properties. |
Read the lab manual for the theme. | 20minutes |
| Analysis of data and reporting of experimental results. | 230minutes | |
| (6) Measurement of drag force which acts on the obstacles in the flow (Y. Suwa) Comprehension on the drag force by the fluid is very important especially to design airplanes and automobiles. It is also important on studying the behavior of aerosols or colloidal substances. In this class, drag force of a sphere in uniform airflow will be measured, and changes in the drag coefficient for the Reynolds number will be studied. Drag coefficient of various shape obstacles will be also evaluated. |
Read the lab manual for the theme. | 20minutes |
| Analysis of data and reporting of experimental results. | 230minutes | |
| (7) Non-contact measurement of the diameter of a fiber (Matsuo) Optical/laser measurements are used in many fields of engineering and science. This is because of the advantages such as non-contact, non-invasive, and preciseness. In this experiment the diameter of a fine fiber is measured with various methods including laser diffraction. From that students will acquire the characteristics and advantages optical methods over the others. |
Read the lab manual for the theme. | 20minutes |
| Analysis of data and reporting of experimental results. | 230minutes | |
| (8) Information Ethics (Kawata) The usage of data obtained through experiments and other means provides useful knowledge and benefits. However, it can also cause various disadvantages and harm if it is used or processed incorrectly. Therefore, in order to acquire ethics for engineers who handle data on a daily basis, students have to learn the basics of information ethics. |
Research information ethics. | 20minutes |
| Reporting of information ethics. | 100minutes | |
| - | - | 2100minutes |
| General exam in mechanical engineering | Initial submitted report | Final report | Total. | |
|---|---|---|---|---|
| 1. | 0% | 15% | 5% | 20% |
| 2. | 0% | 15% | 5% | 20% |
| 3. | 0% | 15% | 5% | 20% |
| 4. | 20% | 15% | 5% | 40% |
| Total. | 20% | 60% | 20% | - |
The grade weights are
(1)General exam in mechanical engineering:20 points
(2)Initial submitted report:60 points
(3)Final report:20 points
All reports must have been accepted and scored larger than 60 points will be passed.
Late reports submitted at first time will be down graded 20 points.
Late reports without permission will be down graded 2 points per day.
(1)General exam in mechanical engineering:20 points
(2)Initial submitted report:60 points
(3)Final report:20 points
All reports must have been accepted and scored larger than 60 points will be passed.
Late reports submitted at first time will be down graded 20 points.
Late reports without permission will be down graded 2 points per day.
| ways of feedback | specific contents about "Other" |
|---|---|
| The Others | 毎回の実験開始前に前回分のレポート指導を実施する。 |
The instruction produced by Department of Mechanical Engineering is distributed.
It is preferable to pass all compulsory subjects from the curriculum for the 1st and 2nd year.
Read the textbook carefully prior to each experiment.
The pre-assignment for each theme is introduced at the first lecture.
Read the textbook carefully prior to each experiment.
The pre-assignment for each theme is introduced at the first lecture.
- Course that cultivates an ability for utilizing knowledge
- Course that cultivates a basic problem-solving skills
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| N/A |
- 4.QUALITY EDUCATION
- 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
- 12.RESPONSIBLE CONSUMPTION & PRODUCTION
- 17.PARTNERSHIPS FOR THE GOALS
Last modified : Sat Sep 09 05:32:46 JST 2023