Fundamentals of Aerodinamic

Major: Avionics
Code of subject: 6.173.00.O.53
Credits: 6.00
Department: Electronics and Information Technology
Lecturer: Cornelia C. Tovstyuk
Semester: 4 семестр
Mode of study: денна
Learning outcomes: Knowing the basic principles of aerodynamics (environmental model, flow classification, aerodynamics of the aircraft) Study of Materials and Structures continues within the broad context of aerospace vehicle and systems design, and also extends beyond the traditional aerospace domain. A foundational understanding of the relevant environmental and energy science as it relates to aviation. Understanding of the functioning of human psychology and physiology and the interactions with aerospace systems and environments Understanding of the functioning of human psychology and physiology and the interactions with aerospace systems and environments Understanding of those aspects of human psychology and physiology which relate to the design and operation of aerospace systems. Ability to analyze aerospace accidents with a focus on human factors
Required prior and related subjects: Physics (Mechanics, Electrostatics, Electrodynamics, Optics Mathematical analysis (Differential and integral calculus) Differential Equations and equation of mathematical physics (Ordinary differential equations and partial differential equations) Software tools in information technology (Functional features of the packages of applied computer mathematics applications)
Summary of the subject: The basic principles of aerodynamics (rules of simulating of flow around the body formed on considering the forces and moments acting on the body taking into acount the form of the body itself,and its orientation relative to the incident flux as well as the properties of the perturbed flow (distribution in space and changes in time of velocities, pressure , density, temperature). Medium models (ideal incompressible gas, viscous incompressible gas, ideal compressible gas,, viscous incompressible gas.) Flows classification (laminar and turbulent streams, airborne and in airborne streams). The laws of conservation as the basic principles of mathematical models (the relation of the second law of Newton in conjunction with the laws of conservation of energy, momentum and angular momentum) Aerodynamics of the aircraft (aerodynamics of the wing profile - the wing of Zhukovsky) Materials and Structures (research and computational modeling of materials and structures, understanding and modeling of basic composite material and structural behavior/response,) Aerospace, Energy, and the Environment as a great potential for understanding and protecting our environment. Humans in Aerospace (functioning of human psychology and physiology and the interactions with aerospace systems and environments, integration of humans in aerospace systems, human-machine interactions and the nature of human error
Assessment methods and criteria: Semester Exam: current control - 30 points, testing - 30 points, tasks - 40 points
Recommended books: 1. A. Kucheriavyi. Avionics K .: Lan, 2016. -460 p. 2. Bessekersky VA, Popov E.P. The theory of automatic control systems. - Moscow: Nauka, 1975. -776 p. 3. Popov E.P. Theory of linear systems of automatic regulation and control. - M .: Nauka, 1989.-301 p. 4. Ivashchenko N.N. Automatic regulation. - Moscow: Mechanical Engineering, 1973. - 606 pp. 5. The theory of automatic control Part 1 / Ed. A.A.Voronova. - M .: Higher school, 1985. 6. Problems manual in the theory of automatic control and handling / Ed. VA Bessekersky - Moscow: Nauka, 1978. - 510 p.