ID: 3656
Course type: scientific and vocational
Course coordinator: Bengin Č. Aleksandar
Lecturers: Bengin Č. Aleksandar
Contact: Bengin Č. Aleksandar
Level of studies: Ph.D. (Doctoral) studies – Mechanical Engineering
ECTS: 5
Final exam type: written
Introducing students to the dynamics of atmospheric flight, orbital and interplanetary flight. Also, during this course in subjects like complex phenomena and dynamic stability and control of modern aircraft.
The ability to deal with scientific research. Students' ability to create and prepare scientific publications. Ability to organize and monitor research projects. Students will be introduced to the procedure of abstract thinking and creative idea generation, the methodology of the design and development of new aircraft and spacecraft on the most advanced technological solutions.
• Equations of aircraft motion in the atmospheric, orbital, and interplanetary flight. • Modelling of aircraft flight dynamics. • Dynamic stability, maneuverability, agility, and maneuverability of aircraft. • Differential equations of aircraft stability. • The criteria of stability of dynamical systems. • The characteristic functions of dynamical systems. • Aerodynamic stability derivatives of aircraft. • Systems of equations of generalized stability and control of aircraft and missile systems. • Inverse Problems of Stability. Flight in a turbulent atmosphere. • Fundamentals of aerospace nautic. • Basis of dynamics of the spacecraft. • The orbits of satellites. • Disorders of satellite orbits.
Laboratory exercises accompany the theoretical classes. Are based on a number of projects. Each project was initiated at a lecture on the topic of each project.
No special conditions.
Aerotechnics Laboratory Wind tunnel Computer lab
Total assigned hours: 65
New material: 30
Elaboration and examples (recapitulation): 20
Auditory exercises: 0
Laboratory exercises: 0
Calculation tasks: 0
Seminar paper: 0
Project: 0
Consultations: 0
Discussion/workshop: 0
Research study work: 0
Review and grading of calculation tasks: 0
Review and grading of lab reports: 2
Review and grading of seminar papers: 0
Review and grading of the project: 2
Test: 0
Test: 0
Final exam: 11
Activity during lectures: 5
Test/test: 0
Laboratory practice: 20
Calculation tasks: 0
Seminar paper: 15
Project: 30
Final exam: 30
Requirement for taking the exam (required number of points): 35
М. Ненадовић, Стабилност и управљивост летелица, I, II и III део, Београд (1981/1984); М. Ненадовић, Основи космичког лета, Београд: Институт техничких наука САНУ и Универзитет у Београду, 1979; R. F. Stengel, Flight Dynamics, Princeton University Press, 2004.; M. J. Abzug and E. E. Larrabee, Airplane Stability and Control: A History of the Technologies that Made Aviation Possible, Cambridge University Press, 2002.; Ashish Tewari, Atmospheric and Space Flight Dynamics: Modeling and Simulation with MATLAB and Simulink, Birkhauser, 2006