| 1st | Major Required | Thermodynamics | Learn basic concepts of thermodynamics and energy transfer by heat, work and mass. In addition, it is the subject which understands the theory about the first law of thermodynamics and the second law of thermodynamics. |
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| Solid mechanics | This course is designed to explain the mechanical behavior of materials under load. You can learn theories such as behavior of materials such as tensile, compression, shear, elasticity and plasticity, shear force diagrams, bending moment diagrams. | ||
| Engineering Differential Equations |
Topics include mathematical methods for solving engineering problems such as first and second order differential equations, differential equations of differential equations, laplace transforms, and convolution integrals.. | ||
| Creative Engineering Design |
Project subjects including lectures on creative thinking and problem solving. You can have time to solve problems yourself through design, production, testing and presentations for one semester. | ||
| Elective education course | Materials Engineering | Understanding of various mechanical properties of materials and basic knowledge of materials modification and strengthening mechanism. Also learns how to understand graphs of phase change of materials. | |
| Numerical analysis | It is a course that learns various numerical methods for solving engineering and scientific problems and applies them to problems. Complex calculations are based on computers and you can learn how to use basic MATLAB. | ||
| Introduction to Nuclear Engineering |
This course introduces the overall contents of nuclear engineering. It covers the breakdown of atomic nuclei based on the principles of nuclear physics, the fission system and its components, the interaction and maintenance of nuclear reactors and nuclear power plants.. | ||
| 2nd | Major Required | Computational system and shape modeling | This course is divided into theoretical time to learn how to make projections, dimensioning and tolerance calculations and drawings, and practical time to learn how to create solid models of mechanical parts using Creo. |
| Engineering linear algebra | Linear equation system is represented by matrix, and equation is solved through matrix operation. Gauss elimination, least squares approximation, and other methods for solving linear equations. | ||
| Fluid Mechanics | Based on the definition of fluids and their introduction to various physical properties, this course deals with equations describing the conservation of mass, momentum and energy with Bernoulli equations and Navier-Stokes equations. | ||
| Dynamics | Learn the theory of force and acceleration, work and energy, momentum and how to apply it to real machine systems. You can also learn material kinetics and rigid body kinematics in planes. | ||
| Basic experiment and design of electric and electronics |
It is divided into lecture time to learn theory about circuit, signal and control, and practice time to learn principle of electric parts such as resistance, capacitor, transistor. I accompany a project to help understand the subject. | ||
| Machine work method | Topics include various methods of machining mechanical materials such as casting, heat treatment, hot and cold working, cutting, grinding and welding, and numerical calculation of process. | ||
| Elective education course | Applied Thermodynamics | This course is an intensive course in thermodynamics, introduces the concepts of exergy, gas and steam cycles, refrigeration cycles, and how to calculate the state quantities and efficiencies. | |
| Applied Solid Mechanics | This course is an intensive course in solid mechanics and deals mainly with stress and strain analysis of beams and columns. You can learn various theories such as the Sikant formula and the theorem of Castigliano for interpretation. |