Department of Mechanical Systems Engineering curriculum and Admissions
We introduce the curriculum of Faculty of Engineering Department of Mechanical Systems Engineering Engineering.
Curriculum policy
In Department of Mechanical Systems Engineering, we offer a wide range of courses from the first year onwards, covering both basic subjects such as mathematics and physics, as well as specialized subjects in mechanical systems engineering. There are also student experiments conducted in small groups of around 10 students, and courses where students work on problems in small groups. From the second semester of the second year, in addition to the general subjects of mechanical systems engineering, students can choose from two specialized subject packages: the Aerospace and Mechanical Science Course and the Robotics and Intelligent Machine Design Course. Students can freely choose from courses other than the 11 required specialized subjects (experiments, special research, CAD, design and drawing, programming, graduation thesis, etc.). The Department of Department of Mechanical Systems Engineering has approximately 30 highly unique laboratories covering all areas of mechanical engineering and related fields, and students can choose a laboratory that suits their individual interests and aptitudes for their graduation thesis research. The synergistic effect of the above curriculum structure makes it possible to educate students with a very broad perspective.
curriculum
Students will acquire a wide range of fundamental knowledge and skills necessary for machine manufacturing, including mechanical mechanics, thermal engineering, fluid mechanics, and materials engineering. From the second semester of their second year, they will split into two courses, the "Aerospace Energy and Mechanical Science Course" and the "Robotics and Intelligent Machine Design Course," allowing them to focus on the subjects that best suit their interests.
| Classification | Specialized subject | |||
|---|---|---|---|---|
| School year |
Basic Natural Sciences |
Specialized Basic Subjects | Aerospace and Mechanical Science Course | Robotics and Intelligent Machine Design Course |
| 4th year |
|
Scientific and Technical English | Graduation thesis | |
| 3rd year |
Mathematical Statistics
|
Engineering Ethics | Plasticity Heat Transfer II Structural Material Evaluation Method Tribology Computational Fluid Dynamics and Exercises Mechanical Materials Engineering II Energy Systems Engineering Energy Conversion Engineering Space Propulsion Engineering Aerospace Fluid Dynamics Finite Element Method and Exercises gas turbine |
Mechanical Design II Production and Processing Studies II Measurement and Signal Processing Engineering Robotics MEMS Vehicle Engineering Human Body Kinetics Production Systems Engineering Human Science Measurement Methods Vibration Control and Exercises Mechatronics and Lab |
|
CAD training Fluid Mechanics II Special Research on Mechanical Systems II |
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| 2nd year |
Differential Equations II
|
Fluid Mechanics I Mechanical Materials Engineering Ⅰ Control Engineering Ⅰ Mechanical Design Ⅰ Heat Transfer I Production and Processing Ⅰ |
Elastic mechanics | Mechanical and Electronic Engineering II Optical Engineering |
|
*The program will transition to a two-course system from the second semester of the second year. Mechanics of Materials II |
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| 1st year |
Linear Algebra I & II Differential Equations I |
Basic Seminar Mechanical Systems Design |
Mechanical Drawing Special Research on Mechanical Systems I |
|
Qualifications that can be obtained
- Junior high school teacher license (science)
- High school teacher license (Science)
- Museum Curator
For details, please see the course registration guide.
Diploma policy
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Students must have basic academic skills in natural science and applied mathematics, with a focus on mathematics and physics, suitable for graduates of engineering departments.
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After acquiring basic knowledge about mechanical engineering in general, students must also acquire knowledge in more specialized fields such as the "Aerospace/Mechanical Science Course" and the "Robotics/Intelligent Machine Design Course."
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Students will have a thorough understanding and practical ability regarding information technology and mechanical design. They will be able to utilize these to observe the various issues facing humanity from a multifaceted perspective of mechanical engineering, create their own plans, analyze them using experimental and mathematical approaches, and appropriately summarize the results. As a culmination of this, students will be able to write a thesis that contains research content that brings new knowledge to cutting-edge mechanical engineering technology and the science and engineering that underpins it.
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Those who have acquired the language skills necessary to collaborate with people from various fields in the international community, the knowledge, sense and understanding of society, culture, ethics, etc., and the overall communication skills and ability to communicate.
Admission policy
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Those who are interested in mechanical systems engineering in general and have the desire to develop and innovate mechanical systems engineering in order to realize a sustainable and smart society and explore the frontiers of humanity.
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Those who have sufficient academic ability in science and mathematics subjects such as mathematics and physics, as well as basic subjects such as English.
Admissions
The Department of Department of Mechanical Systems Engineering will conduct individual academic achievement tests as follows. For details, please click here.
For important information regarding entrance examinations, please click here.
For information on third-year transfer, please click here.
Faculty information session
Please see here for the event schedule.
Information on the Summer Experience Classes for Department of Mechanical Systems Engineering
Please see here for the event schedule.