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University of Hyogo Faculty of Engineering and Graduate School of Engineering

Japanese

Mechanical Engineering Course

Engineering machines, systems, and technologies that move society forward.

Design. Build. Move the future.
Mechanical engineering turns ideas into systems that power modern society.

Mechanical engineering is the foundation of technologies that move, produce, transport, heal, and sustain the world around us. In the Mechanical Engineering Course, students build strong fundamentals in mechanics, design, manufacturing, control, energy, and materials while exploring advanced fields such as robotics, mobility, aerospace, medical devices, environmental technology, and next-generation production systems.

Key Learning Points

POINT01
Master the Core Foundations of Mechanical Engineering
Students systematically study the fundamentals of solid mechanics, dynamics, fluid mechanics, thermodynamics, materials, design, and manufacturing. These foundations prepare students to understand how machines are designed, built, operated, and improved.
POINT02
Create Next-Generation Systems through Design and Innovation
Students learn how mechanical engineering connects with AI, data science, biomedical engineering, robotics, energy systems, and advanced manufacturing. Through creative design and engineering analysis, students develop the ability to transform ideas into practical mechanical systems.
POINT03
Turn Engineering Ideas into Working Solutions
Through experiments, laboratory work, and hands-on projects, students connect theory with real machines and devices. They experience the full engineering process from design and fabrication to testing, evaluation, and improvement.

This course explores the technologies behind automobiles, aircraft, robots, medical devices, energy equipment, production systems, and infrastructure. Students engage with a broad field that includes mechanical design, simulation, control, materials, processing, manufacturing, and system development.

Students interested in mobility, aerospace, robotics, energy, environmental technology, medical engineering, manufacturing, or creating things that actually move and work will find a dynamic and practical field of study here.

This Course Is for Students Who Want to:

  • Understand how machines and mechanical systems work
  • Design and build vehicles, aircraft, robots, devices, or production systems
  • Contribute to energy, environmental, and mobility technologies
  • Turn ideas into products through design, analysis, and manufacturing
  • Become engineers who create technologies that support society

Career Fields After Graduation

  • Manufacturing
  • Energy and Environmental Technology
  • Transportation and Mobility
  • Medical Devices and Healthcare Engineering
  • Information and Communication Technology
  • Public Service and Infrastructure

Faculty Members

How to Experience the Mechanical Engineering Course