Course detail

Flight Performance

FSI-FLV Acad. year: 2023/2024 Winter semester

Subject is a part of Profesional pilot theoretial course. It is focused on enlarging of Flight mechanics knowledge and explanation of its confluence with requirements of flight rules, mainly EU-OPS1.
Students will learn to determine of airplane limitaitons during all flight phases. They get knowledge important for effective and safe aircraft usage in comercial air transport.

Language of instruction

Czech

Number of ECTS credits

5

Entry knowledge

Basics of mathematics – differential and integral calculus, common differential equations. Basics of common mechanics – force effect on a body, kinematics, dynamics.

Rules for evaluation and completion of the course

Conditions to obtain the course-unit credit: attendance at exercises (80% at the minimum), presentation of calculation tasks records. The exam comprises written (the essential one) and oral parts. Evaluation fulfils FME BUT rules.
Lectures and seminars are compulsory, and the attendance (80% at the minimum) is checked and recorded. The absence (in justifiable cases) can be compensated by personal consultation with the lecturer and elaboration of individually assigned topics and exercises. Individual tasks must be finished and handed in the week credits are awarded at the latest.

Aims

The subject is focused on enlarging of Flight mechanics knowledge and explanation of its confluence with requirements of flight rules, mainly EU-OPS1. Students will learn to determine of airplane limitaitons during all flight phases. They get knowledge important for effective and safe aircraft usage in comercial air transport.

Determination and evaluation of airplane performance from safety point of view, defined by regulations of commercial air transport, mainly EU-OPS1 and understanding of effective airplane usage with respect of its performance.

The study programmes with the given course

Programme B-PRP-P: Professional Pilot, Bachelor's, compulsory

Type of course unit

 

Lecture

26 hours, compulsory

Teacher / Lecturer

Syllabus

1. Forces acting on the airplane, power units characteristics, level flight characteristics
2. Characteristics of climb and descent flight, range, endurance
3. Take-off, landing, flight with asymmetric thrust
4. Airplane performance requirements, Aircraft performance classification, declarated runway parameters, gross and net performance
5. Class B – Single engine aircrafts: Performance requirements, performance determination
6. Class B – Multi engine aircrafts: Performance requirements, performance determination
7. Class A: Take-off requirements, take-off speeds
8. Class A: Decision speed, balanced field, unbalanced field
9. Class A: Non standard take-off procedures, take-off climb
10. Class A: Noise abatement procedures, take-off mass limitations
11. Class A: Climb to cruise altitude, cruise, cruise speed and altitude limitations
12. Class A: Cruise with one (two) engine inoperative, Range limit, ETOPS
13. Class A: Descent, landing

Exercise

13 hours, compulsory

Teacher / Lecturer

Syllabus

1. Forces acting on the airplane, power units characteristics, level flight characteristics
2. Characteristics of climb and descent flight, range, endurance
3. Take-off, landing, flight with asymmetric thrust
4. Airplane performance requirements, Aircraft performance classification, declarated runway parameters, gross and net performance
5. Class B – Single engine aircrafts: Performance requirements, performance determination
6. Class B – Multi engine aircrafts: Performance requirements, performance determination
7. Class A: Take-off requirements, take-off speeds
8. Class A: Decision speed, balanced field, unbalanced field
9. Class A: Non standard take-off procedures, take-off climb
10. Class A: Noise abatement procedures, take-off mass limitations
11. Class A: Climb to cruise altitude, cruise, cruise speed and altitude limitations
12. Class A: Cruise with one (two) engine inoperative, Range limit, ETOPS
13. Class A: Descent, landing