NCKU Curriculum Map
1. 2.
3.
Mechanical Engineering    [Course Catalog of this Semester]
Goal   
  • To train students to understand principles of mathematics, science and engineering, and use systematic methods to solve mechanical engineering.
  • Reinforce cooperation between theories and practice, deepen and broaden mechanical engineering education.
  • Cultivate mechanical engineering experts with leadership, creativity, and global vision.
  • Principle Literacy and Competence   
    [Principle Literacy]
  • Demonstrated professional ethical and humanitarian behaviour.
  • Developed sense of professional integrity.
  • Developed sense of environmental sustainability and social responsibility.
  • Developed multicultural and international perspective.
  • [Competence]
  • Ability to use mathematics, science and engineering priniciples to systematically solve engineering problems.
  • Ability to design and perform experiments, analyze and interpret experimental data.
  • Ability to employ current technology and engineering tools required for modern engineering practices.
  • Ability to perform design of a mechanical engineering system.
  • Ability to communicate effectively with others and work in a team.
  • Ability to discover, analyze and solve engineering problems.
  • Ability to discern current issues, understand the social/environmental/global impacts of engineering work, and cultivate a habit of extended continuous learning.
  • Understanding of professional ethics and cultivate a sense of social responsibility.
  • Course Classification
    Course Classification Course Name
    A. School common required course
    B. General education courses
    C. Faculty core courses
    D. Department/Institute core courses
    [ME0001]SERVICE STUDY (1), [ME0002]SERVICE STUDY (2), [ME0003]SERVICE STUDY (3), [CHEM1021]GENERAL CHEMISTRY, [PHYS1021]GENERAL PHYSICS (1), [MATH1021]CALCULUS (1), [MATH1021]CALCULUS (1), [CHEM1022]GENERAL CHEMISTRY LABORATORY, [PHYS1022]GENERAL PHYSICS LABORATORY (1), [MATH1022]CALCULUS (2), [MATH1022]CALCULUS (2), [PHYS1023]GENERAL PHYSICS (2), [PHYS1024]GENERAL PHYSICS LABORATORY (2), [ME1100]INTRODUCTION TO COMPUTERS, [ME1300]APPLIED MECHANICS(1), [ME1301]APPLIED MECHANICS (2), [ME1400]ENGINEERING GRAPHICS (1), [ME1401]ENGINEERING GRAPHICS (2), [ME2100]ENGINEERING MATHEMATICS (1), [ME2101]ENGINEERING MATHEMATICS (2), [ME2170]EXPERIMENTS IN MECHANICAL ENGINEERING, [ME2200]THERMODYNAMICS (2), [ME2201]THERMODYNAMICS(1), [ME2300]MECHANICS OF MATERIALS(1), [ME2400]MECHANICAL ENGINEERING DRAWING, [ME2401]MECHANISM (1), [ME2402]MECHANISM (2), [ME2500]MANUFACTURING PROCESSES, [ME2501]MATERIALS FOR MECHANICAL ENGINEERING, [ME2570]MACHINE SHOP PRACTICE (1), [ME2571]MACHINE SHOP PRACTICE (2), [ME2600]ELECTRICAL ENGINEERING, [ME3171]EXPERIMENTS IN MECHANICAL ENGINEERING, [ME3200]FLUID MECHANICS, [ME3201]HEAT TRANSFER, [ME3202]FLUID MECHANICS, [ME3270]EXPERIMENTS IN MECHANICAL ENGINEERING, [ME3400]MACHINE DESIGN(1), [ME3401]MACHINE DESIGN(2), [ME3402]MACHINE DESIGN, [ME3404]MACHINE DESIGN(1), [ME3405]MACHINE DESIGN(2), [ME3601]ELECTRONICS, [ME3602]AUTOMATIC CONTROL
    E. Interdisciplinary courses
    [ME3122]ANALYSIS OF MATERIAL FRACTURE
    F. Incorporating Service-Learning into the course
    G. Biomedical engineering.
    [ME2301]MECHANICS OF MATERIALS(2), [ME3120]INTRODUCTION TO BIOMECHANICS
    H. Optical-Mechatronic Engineering
    [ME3107]INTRODUCTION TO QUANTUM MECHANICS, [ME4104]FUNDAMENTALS OF OPTICS
    I. Nano Technology
    [ME3107]INTRODUCTION TO QUANTUM MECHANICS, [ME4104]FUNDAMENTALS OF OPTICS
    J. Programming & Automated Design
    [ME2102]COMPUTER PROGRAM DESIGN, [ME3109]COMPUTER GRAPHICS, [ME3112]NUMERICAL ANALYSIS
    K. Manufacturing and Material
    [ME3100]FERROUS MATERIALS, [ME3111]PHYSICAL PROPERTIES OF MATERIALS, [ME3114]PRECISION PROCESS & MEASUREMENT, [ME3118]INTRODUCTION TO MACHINE TOOL, [ME3122]ANALYSIS OF MATERIAL FRACTURE, [ME3125]THEORY OF MATERIALS, [ME3500]FUNDAMENTALS OF METAL MACHINING AND MACHINE TOOLS, [ME3501]POWDER METALLURGY
    L. System and Control
    [ME3103]BASIC FINITE ELEMENT METHOD, [ME3108]TOLERANCE DESIGN FOR MACHINE ELEMENTS, [ME3112]NUMERICAL ANALYSIS, [ME4100]INSTRUMENTATION & MEASUREMENT, [ME4400]COMPUTER-AIDED MECHANICAL DESIGN, [ME5401]GREEN DESIGN
    M. Others
    [ME2103]AN INTRODUCTION TO ENERGY SCIENCE AND TECHNOLOGY, [ME2104]TECHNOLOGICAL JAPANESE, [ME3101]ENGINEERING JAPANESE (1), [ME3102]ENGINEERING JAPANESE (2), [ME3104]ROBOTIC CONTROL AND PRACTICE, [ME3105]ENGINEERING HYDRAULIC & PNEUMATIC CONTROL, [ME3106]ADVANCED ENGINEERING MATHEMATICS, [ME3107]INTRODUCTION TO QUANTUM MECHANICS, [ME3110]TOOL DESIGN, [ME3113]SERVO CONTROL, [ME3115]CREATIVE ENGINEERING DESIGN, [ME3116]INTRODUCTION TO COMPONENTS OF CONTROL SYSTEMS, [ME3117]EXPERIMENTAL DESIGN, [ME3118]INTRODUCTION TO MACHINE TOOL, [ME3119]HYDRAULIC AND PNEUMATIC AUTOMATION ENGINEERING, [ME3121]TECHNOLOGICAL GERMAN, [ME3123]ENGINEERING STATISTICS AND APPLIED PROBABILITY, [ME3124]IOT AND BIG DATA FOR SMART MANUFACTURING PROCESS, [ME3126]PROFESSIONAL SKILLS FOR ENGINEERING THE THIRD INDUSTRIAL REVOLUTION, [ME3127]PRACTICE OF DIGITAL MANUFACTURING, [ME3170]PRACTICAL TRAINING, [ME3172]MECHANICAL ENGINEERING PROJECT, [ME3173]MECHANICAL ENGINEERING PROJECT, [ME3190]CURRENT STATUS OF MECHANICAL ENGINEERING TECHNOLOGY IN MODERN INDUSTRY, [ME3300]MECHANICAL VIBRATION, [ME3301]ADVANCED MECHANICS OF MATERIALS, [ME3302]STRESS ANALYSIS, [ME3303]INTRODUCTION TO MECHANICS OF COMPOSITE MATERIALS, [ME3403]COMPUTER AIDED MECHANISM DESIGN, [ME3600]SYSTEM DYNAMICS ANALYSIS AND MODELING, [ME4101]AN INTRODUCTION TO ENERGY SAVING TECHNOLOGY, [ME4102]PRINCIPLE OF AUTOMOBILE, [ME4103]SEMICONDUCTOR PROCESSING, [ME4105]INTERNAL COMBUSTION ENGINES, [ME4106]MECHANICAL ENGINEERING PROJECT (2), [ME4190]THESIS (1), [ME4191]THESIS (2), [ME4200]THERMAL ENGINEERING, [ME4201]ENGINEERING REFRIGERATION AND DESIGN, [ME4600]DIGITAL CONTROL SYSTEM, [ME5400]GREEN TECHNOLOGY INNOVATIVE DESIGN
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