Course detail

Flight Mechanics I

FSI-OMZ-A Acad. year: 2021/2022 Summer semester

Comprehensive explanation of theoretical foundations and methods of determination of flight performance of atmospheric aircraft. The forces acting on the aircraft and the equations of motion are analyzed, the basic characteristics and flight performance of the aircraft being obtained.

Learning outcomes of the course unit

The graduate will acquire the ability to determine the classical flight performance of an airplane by numerical methods. Evaluate qualitatively and quantitatively the relation of flight performance with the design of the airplane and its optimal use during operation.

Prerequisites

Fundamentals of university mathematics – differential and integral calculus, ordinary differential equations. Fundamentals of general mechanics – force effects on bodies, kinematics and dynamics of the bodies’ motion. Fundamentals of aerodynamics.

Planned learning activities and teaching methods

The course is taught in the form of lectures, which have the character of the basic principles and theory of the discipline. The seminar is focused on practical mastery of the subject matter discussed at lectures.

Assesment methods and criteria linked to learning outcomes

The condition for obtaining the course-unit credit is participation in seminars. Obtaining credit is a condition for admission to the exam. The exam is written and oral, while the knowledge base is based on a written exam. Classification according to the Study and Examination Regulations of FME.

Language of instruction

English

Aims

The aim of this course is to familiarize students with the basic tasks of the flight mechanics of aircrafts, to acquaint students with the methods of determination of classical flight performance and the assessment of the influence of aerodynamic, inertial and propulsion characteristics on flight performance.

Specification of controlled education, way of implementation and compensation for absences

90% participation in exercises, further it is necessary to present all completed calculations. Missed lessons are replaced by guided consultation and self-study.

The study programmes with the given course

Programme N-AST-A: Aerospace Technology, Master's
branch ---: no specialisation, 5 credits, compulsory

Type of course unit

 

Lecture

26 hours, optionally

Teacher / Lecturer

Syllabus

1. Introduction. Definition, classification and basic concepts of flight mechanics.
2. Kinematics of atmospheric aircraft motion. Coordinate systems.
3. Forces acting on the airplane. Load factor.
4. Basic equations of motion.
5. Horizontal flight. Required thrust and power.
6. Characteristic regimes in horizontal flight.
7. Equilibrium diagrams of thrust and power. Flight regimes envelope.
8. Climb and ceiling of aircraft. Barograms and trajectories of flight.
9. Gliding flight. Hodograph diagram.
10. Flight performance in turns. Turn limitations.
11. Range and endurance of the airplane.
12. Take-off and landing performance.
13. CS Performance Requirements.

Exercise

13 hours, compulsory

Teacher / Lecturer

Syllabus

1. Coordinate systems. Transformation of forces, moments and kinematic quantities.
2. Calculation of minimum and maximum airspeeds.
3. Equilibrium diagrams of thrust and power.
4. Economical and optimal flight regime – connection to the aerodynamic polar of the airplane.
5. Gliding flight. Hodograph diagram.
6. Influence of operating conditions on the hodograph. Practical use of the hodograph.
7. Calculation of climb performance. Diagram w = f (V). Climb regimes.
8. Effect of height on climb. Calculation of ceiling.
9. Calculation of barograms and flight trajectories.
10. Flight performance in steady horizontal turn.
11. Turn diagrams.
12. Calculation of take-off lengths.
13. Calculation of landing lengths.