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Some engineering departments offer an option to graduate with departmental honors. Through proper planning with advisors, students may delay choosing specific fields for one or two semesters. Others will allow students to make informal presentations as a "dress rehearsal" for presentations to be given at a technical conference.
Selecting the major by the beginning of the third semester is strongly encouraged so that the recommended schedule of classes can be followed. Advanced theory of turbojet, fanjet (multi-spool), variable cycle engines, ramjet and bypass air breathing propulsion systems. Two semesters of enrollment required for all MS, ME Ph D and DE aspirants and candidates.
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Appropriate laboratory experience that combines elements of theory and practice is included in each student’s program, together with extensive computer-based experience. A graduate course or colloquium in a topic related to graduate studies in Aerospace Engineering. This design work will involve detailed design of efforts in such areas as: landing gear design, systems design, propulsion system integration, structures design and aerodynamic design. A foreign language that is similar to the native language is not acceptable. Information on use of foreign language courses is available in each engineering program listing. Lecture and laboratory, study of basic principles of propulsion systems with emphasis on jets and fan systems. Engineering students may minor in many liberal arts areas or in the schools of Business, Journalism and Mass Communications, or Music. Study of the basic principles of operation and systems of internal and external combustion engines with emphasis on airplane reciprocating engines. To earn a minor, a student must take at least 18 credit hours, 12 of which must be 300-level courses or above. Spacecraft systems engineering, space environment; basic astrodynamics; and the following spacecraft subsystems; attitude determination and control; electrical power; thermal; propulsion; structures and mechanisms; command, telemetry, and data handling; and communications. Fundamentals of Airplane Reciprocating Propulsion Systems. Cycle analysis, propeller theory, propeller selection and performance analysis.