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Education Program for Engineering Mechanics


Program Objectives

This program is designed to train students in the field of mathematics, mechanics, aeronautics and astronautics, mechanical engineering and computer science. The program aims to train them to have high-quality and compound talents. They will firmly grasp the basic theoretical knowledge of mathematics and mechanics, systematic engineering mechanics expertise and strong research capacity. They also have innovative consciousness, and can work in the field of mechanics, aeronautics and astronautics, mechanical engineering and so on. 


 Program Requirements

Basic theory and knowledge of engineering mechanics and aerospace engineering are our main courses, and this program train students to solve problems in the fields of engineering with mechanical analysis method. According to the Omni direction training program, the students are required to have creative thinking habit and consciousness, and potentiality for further education. Our program includes two directions, one is engineering mechanics and the other is aeronautics and astronautics. Students can choose one from them.

Graduates should acquire the following knowledge and ability:

1. Mastering the basis theoretical and expertise knowledge of this broad field, including mathematics, engineering mechanics, mechanical design, and computer skill; Being familiar with the theory and method of many kinds of mechanics experiments.

2. Graduates of Engineering Mechanics should have firm basic knowledge of mathematics and mechanics, know the frontier topics on the discipline, be able to use their knowledge in the fields of aeronautics and astronautics, civil engineering and mechanical engineering.

3. Graduates of Aeronautics and Astronautics should be familiar with the theory and method which are used in designing aero & space vehicles, know the theoretical frontier and application prospects and development trend on the discipline. They should be capable of participating in designing aero & space vehicles, can work on scientific research and have practical and professional skill.

4. Being able to solve engineering and technology problem with mechanics, and having experimental skill. Mastering foreign languages and having skilled ability about development and application of computer software.



Core Curriculum 

Theoretical Mechanics(A) Mechanics of Materials(A) Fluid Mechanics (A) Mechanics of Elasticity Mechanics of Vibrations

Principals of Automatic Control Advanced Dynamics 



Characteristic Curriculum

Bilingual Course: Computational Fluid Mechanics Finite Element Method Mechanics of Materials(A)

Research Course:Computational Fluid Mechanics Finite Element Method 



Planning Educational Duration: 4 years    

Minimum Credits for Graduation: 160+4+5   

Awarding Degree: Bachelor of Engineering



Subject Displine: Engineering Mechanics    Main Subject: Mechanics



Curriculum and Credit:

⒈ General course    47.5+5  credits

⒉ Discipline course    44.5 credits

(1Required course    25 credits

(2Specialty optional course    19.5 credits

3. Specialized courses    68   credits

(1Required course     33.5   credits

(2Pathway course      8.5 credits

(3Elective course    12 credits

(4Practice teaching    6 credits

(5Graduation thesis(design)    8 credits

4. Second classroom  +4 credits