Course Code	Semester	Course Name	LE/RC/LA	Course Type	Language of Instruction	ECTS
HHK2931	2	GENERAL AIRPORT AND FLIGHT SAFETY	2/2/0	CC	Turkish	4

Course Goals	The aim of this course is to define the basic concepts and principles of flight, to comprehend the theory of air holding and flight of light and heavier aircraft, aerostatic and aerodynamic laws, forces affecting the aircraft, aircraft structure, systems and structural features of aircraft will be employed in the aviation sector of the future. is to ensure that our young people are well-equipped.
Prerequisite(s)	The minimum qualifications expected from the student in order to take the course. (Examples: Foreign language level, attendance, previously acquired institutional competencies, etc.)
Corequisite(s)	BASIC AIRCRAFT KNOWLEDGE
Special Requisite(s)	Intermediate English knowledge and compulsory attendance
Instructor(s)	LecturerSadiye Oya Işıkçı
Course Assistant(s)	CCM and CCTM
Schedule	İKÜ- İncirli Campus Tuesday 14.00-17.50 2. Floor 2B-01 Classroom
Office Hour(s)	İKÜ- İncirli Campus Thursday 14.00-15.00 2A05 Office
Teaching Methods and Techniques	- Lecture (presentation), question-answer, discussion, problem solving, case study and group work methods and digital enriched method will be supported with Sectoral Webinars on computer assisted teaching techniques will be used.
Principle Sources	- CCM and CCTM
Other Sources	- Dr. DURMUŞ Seyhun  ''Flight Theory and Basic Flight Knowledge'' - Nobel Academic Press 2022

Course Schedules
Week	Contents	Learning Methods
1. Week	Historical development of aircraft and Basic flight concepts	Presentation, Lecture, Case Study
2. Week	Atmospheric physics: Physical properties of air, International standard atmosphere	Presentation, Lecture, Case Study
3. Week	Flight theory of lighter-than-air and heavier-than-air aircraft: Aerostatic and aerodynamic grip	Presentation, Lecture, Case Study
4. Week	Newton, Bernoulli and Archimedes laws and aircraft aerodynamics	Presentation, Lecture, Case Study
5. Week	Forces affecting aircraft in the air	Presentation, Lecture, Case Study
6. Week	Aircraft movement axes and control elements	Presentation, Lecture, Case Study
7. Week	Flight controls, wings, tail train and additional surfaces	Presentation, Lecture, Case Study
8. Week	Midterm	Midterm
9. Week	Aircraft structure and systems	Presentation, Lecture, Case Study
10. Week	Stresses affecting aircraft elements, structural loads	Presentation, Lecture, Case Study
11. Week	Metal fatigue, stall, excessive handling devices	Presentation, Lecture, Case Study
12. Week	Carriage enhancing elements, additional surfaces (flap, slat)	Presentation, Lecture, Case Study
13. Week	Stability and stability flight controls of aircraft	Presentation, Lecture, Case Study
14. Week	Aircraft classification based on sound speed reference (subsonic, transonic and supersonic) fast flights	Presentation, Lecture, Case Study
15. Week	Final Exam	Final Exam
16. Week	Final Exam	Final Exam
17. Week	Final Exam	Final Exam

Assessments
Evaluation tools	Quantity	Weight(%)
Midterm(s)	1	40
Final Exam	1	60

Program Outcomes PO-1 It is to have knowledge in economics and business administration PO-2 It is to have knowledge in the field of safety management systems PO-3 Having knowledge of diction and announce areas PO-4 Having knowledge of catering and service area PO-5 To have knowledge of basic first aid area PO-6 Having knowledge in the field of Crew Resource Management PO-7 Flights to have information on the safety area Mock Up PO-8 Emergency Operations and have knowledge about the safety procedures PO-9 Having information about civil aviation PO-10 Having knowledge about the field of Civil Aviation Cabin Services

Learning Outcomes LO-1 Explain Flight Concepts and Basic principles (aerostatics, aerodynamics) LO-2 Classifies Aircraft. LO-3 Define Aircraft Structural Elements. LO-4 Classifies Aircraft Elements. LO-5 Defines Working Principles of Aircraft Elements.

Course Assessment Matrix:

	PO 1	PO 2	PO 3	PO 4	PO 5	PO 6	PO 7	PO 8	PO 9	PO 10
LO 1
LO 2
LO 3
LO 4
LO 5