西北工业大学 Northwestern Polytechnical University 全英文专业培养方案

Undergraduate Program for Major in Astronautics Engineering

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Undergraduate Program for Major in Astronautics Engineering

I. Description of major

Astronautics engineering is based on the “Flight Vehicle Design and Engineering,” which belongs to Aeronautical and Astronautical Science and Technology. The discipline of Flight Vehicle Design is one of first disciplines that are entitled as National Key Discipline, and has the qualification to authorize Doctor and Master degrees. This major has built post-doctoral research center in the disciplines of Aeronautics& Astronautics Technology, and Mechanics.

Our major has good reputations for fundamental research and engineering application in the field of Space Plane, Aerospace Launch Vehicle System, and Maneuver and Operational Spacecraft. The major mainly focus on research of missile, spacecraft and spaceplane, and carries out outstanding technologies of System Design, Structure Design, Flight Mechanics and Guidance & Control, etc. Graduated students have opportunity to apply postgraduate education position in flight vehicle design discipline or other disciplines. This major has outstanding faculties, all of them have obtained doctoral degree, about 60% of them have experience of overseas study or research. They also have opportunity to work in the corresponding industries to be engaged in the research of flight vehicle system design, structural design, flight dynamics and control, etc.
II. Objectives

This program aims to cultivate students to be high-qualified engineers or researchers who have solid mathematics and mechanics foundation, basic knowledge and theory of disciplines related to astronautical engineering as well as the corresponding professional knowledge. By learning general education courses, graduates can obtain knowledge of mathematics, mechanics, and humanity; By learning discipline courses, graduates can obtain knowledge of principle of flight, flight vehicle design theories and methods, and frontier technologies of flight vehicle design discipline; By learning experimental courses and taking part in practice trainings, graduates will get their capabilities in experiment, practice, research, and creation. The education objective of this major is to train elites with scientific knowledge and technologies of advanced flight vehicle for the fields of astronautics, aeronautics and other industries.

III. Requirements

Students need to learn fundamental theory and knowledge of flight vehicle design, be trained in flight vehicle design, and obtain capabilities to take part in flight vehicle design research and engineering. Graduates should obtain following knowledge and capabilities:

Familiar with policies, rules, and laws of this discipline, and know frontier, application prospective, and development trends.
Master the fundamental theory and knowledge in system design, structural design, flight mechanics, aerodynamics, guidance and control, etc.
Have the capabilities in flight vehicle design, including computation, testing, experiment, and computer program developing.
Be good at literature searching, and have the capabilities in scientific research and paper writing.
Be capable of practicing and experiment, and has the potential to carry out creative work.

IV. Length of schooling and degree granted

Length of schooling: 4 years for undergraduates

Degree granted:Bachelor’s degree in Engineering

V. Hours/Credits Units

Total credit: 146.5 credits

Including units:

General education courses:	63.5 credits	Percentage of total credits: 43.3%
Discipline or major courses:	60.0 credits	Percentage of total credits: 41.0%
Comprehensive practices:	23.0 credits	Percentage of total credits: 15.7%

VI. Discipline or major courses

(1) Discipline elementary courses: 21.5 credits
U01M12004 Theoretic Mechanics 4.0 credits

U05M12019 Electrical and Electronic Technology 4.0 credits

U05M12020 The Fundamental of Machine Design 3.5 credits

U05M22009 Experiment for Electrical and Electronic Technology 1.0 credit

U06M12005 Mechanics of Materials 3.0 credits

U02M12502 Aerodynamics 3.0 credits

U02M12503 Automatic Control Principles 3.0 credits

(2) Major’s core courses: 19.5 credits

U02M12206 Orbital Mechanics for Aerospace Vehicle 3.0 credits

U02M12505 Flight Vehicle Flight Dynamics 4.0 credits

U02M12506 Fundamentals of Rocket Propulsion 4.0 credits

U02M12507 Flight Vehicle Attitude Dynamics and Control 2.5 credits

U02M12509 Flight Vehicle Structure Mechanics 3.0 credits

U02M12513 Flight Vehicle Guidance 3.0 credits

VII. Course modules and credit distribution: 146.5 total credits

1. General education courses: 63.5 credits

(1) Chinese culture: 19 credits

Course Code	Course Name	Credit
U26G11001	Chinese for Foreigners I	3.5 Credits
U26G12002	Chinese Culture I	2.0 Credits
U26G11003	Chinese for Foreigners II	4.0 Credits
U26G12004	Chinese Culture II	2.0 Credits
U26G11005	Chinese for Foreigners III	3.5 Credits
U26G11006	Chinese for Foreigners IV	4.0 Credits

(2) University general education courses: 11.5 credits

Course Code	Course Name	Credit
U05M12027	Mechanical Mapping	3.0 Credits
U10G12012	College Computer (English)	2.0 Credits
U10G22013	College Computer (English) Experiment	1.5 Credits
U10G12032	C Programming (English)	3.0 Credits
U10G22033	C Programming Experiment II (English)	2.0 Credits

(3) Level-based general education courses: 29 credits

Course Code	Course Name	Credit
U11G12035	Calculus II (1) (English)	4.0 Credits
U11G12036	Calculus II (2) (English)	4.0 Credits
U11G12037	Calculus II (3) (English)	4.0 Credits
U11G12038	Linear algebra (English)	3.0 Credits
U11G12040	Probability Theory and Mathematical Statistics (English)	3.5 Credits
U11G43048	Physics IV(1) (English)	4.0 Credits
U11G42049	Physics IV(2) (English)	3.5 Credits
U11G28063	Physics Experiment III (1) (English)	1.5 Credits
U11G28064	Physics Experiment III (2) (English)	1.5 Credits

(4) Physical Education: 4.0 credits

2. Discipline or major courses: 60 credits

(1) Discipline elementary courses: 21.5 credits

Course Code	Course Name	Credit
U01M12004	Theoretical Mechanics (English)	4.0 Credits
U05M12019	Electrical and Electronic Technology (English)	4.0 Credits
U05M22009	Experiment for Electrical and Electronic Technology (English)	1.0 Credits
U05M12020	The Fundamental of Machine Design (English)	3.5 Credits
U06M12005	Mechanics of Materials (English)	3.0 Credits
U02M12502	Aerodynamics (English)	3.0 Credits
U02M12503	Principles of Automatic Control (English)	3.0 Credits

(2) Major’s core courses: 19.5 credits

Course Code	Course Name	Credit
U02M12206	Orbital Mechanics for Aerospace Vehicle (English)	3.0 Credits
U02M12505	Flight Vehicle Flight Dynamics (English)	4.0 Credits
U02M12506	Fundamentals of Rocket Propulsion (English)	4.0 Credits
U02M12507	Flight Vehicle Attitude Dynamics and Control (English)	2.5 Credits
U02M12509	Flight Vehicle Structure Mechanics (English)	3.0 Credits
U02M12513	Flight Vehicle Guidance (English)	3.0 Credits

(3) Discipline’s frontier courses: 1.5 credits

Course Code	Course Name	Credit
U02M12501	Introduction to Aerospace Engineering (English)	1.5 Credits

(4) Major’s elective courses: 17.5 credits

Course Code	Course Name	Credit
U02M12508	Fundamentals of Flight Vehicle Navigation (English)	3.0 Credits
U02M12510	Rocket Engine Design (English)	3.0 Credits
U02M12511	Computational Aerodynamic (English)	3.0 Credits
U02M12512	Theory and Application of System Identification (English)	2.5 Credits
U02M12514	Modern Vehicle Structural Design (English)	3.0 Credits
U02M12515	System Engineering of Flight Vehicle (English)	3.0 Credits

3. Comprehensive practices: 23 credits

(1) Design/dissertation for graduation: 15 credits

Course Code	Course Name	Credit
U02P72001	Graduation Thesis (Design)	15.0 Credits

(2) Internship: 8 credits

Course Code	Course Name	Credit
U32P41001	Metalworking A	2.0 Credits
U02P42001	Acknowledge Internship	1.0 Credits
U02P42002	Engineering Internship	3.0 Credits
U02P52001	Flight mechanics course design	1.0 Credits
U02P52002	Course design for numerical calculation of aerodynamics	1.0 Credits

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