UÇAK SİSTEMLERİ V DERS TANITIM VE UYGULAMA BİLGİLERİ

Kodu	Dersin Adı	Yarıyıl	Süresi(T+U)	Kredisi	AKTS Kredisi
GMY442	UÇAK SİSTEMLERİ V	8	12	8	10

DERS BİLGİLERİ
Dersin Öğretim Dili :	Türkçe
Dersin Düzeyi	BACHELOR'S DEGREE, TYY: + 6.Level, EQF-LLL: 6.Level, QF-EHEA: First Cycle
Dersin Türü	Zorunlu
Dersin Veriliş Şekli	-
Dersin Koordinatörü	Assist.Prof. SİNEM GÜRKAN
Dersi Veren Öğretim Üyesi/Öğretim Görevlisi
Ders Ön Koşulu	Yok

AMAÇ VE İÇERİK
Amaç:	This course aims to enable students to comprehend the operation of various systems in aircraft and effectively analyze the systems encountered during maintenance and repair processes. It provides a comprehensive examination of fundamental aircraft systems, including flight controls, fuel systems, hydraulic power, ice and rain protection systems, landing gear, and lighting systems, focusing on their maintenance, repair, troubleshooting, and operational requirements.
İçerik:	The course begins with flight controls, offering a detailed analysis of aircraft control surfaces, load controls, high-lift devices, and system operation mechanisms (manual, hydraulic, pneumatic, electrical, and fly-by-wire). The functionality of fuel systems is explored, with an emphasis on fuel tanks, feed systems, cross-feed, refueling, and defueling operations. Hydraulic power systems are explained in terms of fluids, pumps, pressure generation, power distribution, and the principles of accumulators. Ice and rain protection systems are addressed, covering ice prevention and removal, rain repellent, and wiper systems. Additionally, landing gear systems are detailed, including shock absorption, braking systems, wheels, tires, auto-braking, and anti-skid systems. Finally, external and internal lighting systems on aircraft, such as navigation lights, emergency lighting, and cabin illumination, are included in the curriculum. Through this course, students gain an in-depth understanding of the operational principles and maintenance requirements of aircraft systems, equipping them with the knowledge needed for effective aircraft maintenance and repair operations.

DERSİN ÖĞRENME ÇIKTILARI (Öğrenciler, bu dersi başarı ile tamamladıklarında aşağıda belirtilen bilgi, beceri ve/veya yetkinlikleri gösterirler.)
Analyzes the operation of flight controls and flight surfaces.
Explains the operation of the Flettner, active load control, and high-lift devices.
Explains the operation of special systems such as artificial feel, yaw damper, Mach trim, and rudder limiter.
Analyzes balancing/equalizing procedures and stall protection/warning systems.
Identifies fuel system layout plans and analyzes information related to fuel tanks.
Evaluates fuel refueling and defueling procedures.
Analyzes fuel system indicators and warning systems.
Evaluates the structure, pumps, and pressure generation processes of hydraulic systems.

HAFTALIK DERS KONULARI VE ÖNGÖRÜLEN HAZIRLIK ÇALIŞMALARI
Hafta	Ön Hazırlık	Konular	Yöntem
1	Reading a book chapter on the subject Examining sample questions	11.15 Oxygen (ATA 35) System layout; Crew, passenger; Sources, storage, filling and distribution; Feed adjustment; Indicators and warnings.	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
2	Reading a book chapter on the subject Examining sample questions	11.15 Oxygen (ATA 35) System layout; Crew, passenger; Sources, storage, filling and distribution; Feed adjustment; Indicators and warnings.	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
3	Reading a book chapter on the subject Examining sample questions	11.16 Pneumatic/Vacuum (ATA 36) System layout; Sources; Engine/API, compressors, reservoirs, ground supply; Pressure control; Distribution; Indicators and alerts; Interface with other systems.	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
4	Reading a book chapter on the subject Examining sample questions	11.16 Pneumatic/Vacuum (ATA 36) System layout; Sources; Engine/API, compressors, reservoirs, ground supply; Pressure control; Distribution; Indicators and alerts; Interface with other systems.	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
5	Reading a book chapter on the subject Examining sample questions	11.17 Water/Waste (ATA 38) Water system layout, supply, distribution, service and drainage; Flush system layout, cleaning and service; Corrosion conditions.	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
6	Reading a book chapter on the subject Examining sample questions	11.18 Onboard Maintenance Systems (ATA 45) Central maintenance computers; Data upload system; Electronic library system; Printing/Printing; Structural tracking (damage tolerance tracking).	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
7	Reading a book chapter on the subject Examining sample questions	11.18 Onboard Maintenance Systems (ATA 45) Central maintenance computers; Data upload system; Electronic library system; Printing/Printing; Structural tracking (damage tolerance tracking).11.19 Integrated Modular Avionics (ATA 42) Functions that can be typically integrated into Integrated Modular Avionics (IMA) modules include, among others: Bleed Management, Air Pressure Control, Air Ventilation and Control, Avionics and Cockpit Ventilation Control, Temperature Control, Air Traffic Communications, Avionics Communications Router, Electrical Load Management, Circuit Breaker Monitoring, Electrical Systems BITE, Fuel Management, Braking Control, Steering Control, Landing Gear Extend and Retract, Tire Pressure Indicator, Oleo Pressure Indicator, Brake Temperature Monitoring, etc. Main System; Network Components	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
8	-	MID-TERM EXAM	-
9	Reading a book chapter on the subject Examining sample questions	11.19 Integrated Modular Avionics (ATA 42) Functions that can be typically integrated into Integrated Modular Avionics (IMA) modules include, among others: Bleed Management, Air Pressure Control, Air Ventilation and Control, Avionics and Cockpit Ventilation Control, Temperature Control, Air Traffic Communications, Avionics Communications Router, Electrical Load Management, Circuit Breaker Monitoring, Electrical Systems BITE, Fuel Management, Braking Control, Steering Control, Landing Gear Extend and Retract, Tire Pressure Indicator, Oleo Pressure Indicator, Brake Temperature Monitoring, etc. Main System; Network Components	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
10	Reading a book chapter on the subject Examining sample questions	11.19 Integrated Modular Avionics (ATA 42) Functions that can be typically integrated into Integrated Modular Avionics (IMA) modules include, among others: Bleed Management, Air Pressure Control, Air Ventilation and Control, Avionics and Cockpit Ventilation Control, Temperature Control, Air Traffic Communications, Avionics Communications Router, Electrical Load Management, Circuit Breaker Monitoring, Electrical Systems BITE, Fuel Management, Braking Control, Steering Control, Landing Gear Extend and Retract, Tire Pressure Indicator, Oleo Pressure Indicator, Brake Temperature Monitoring, etc. Main System; Network Components	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
11	Reading a book chapter on the subject Examining sample questions	11.19 Integrated Modular Avionics (ATA 42) Functions that can be typically integrated into Integrated Modular Avionics (IMA) modules include, among others: Bleed Management, Air Pressure Control, Air Ventilation and Control, Avionics and Cockpit Ventilation Control, Temperature Control, Air Traffic Communications, Avionics Communications Router, Electrical Load Management, Circuit Breaker Monitoring, Electrical Systems BITE, Fuel Management, Braking Control, Steering Control, Landing Gear Extend and Retract, Tire Pressure Indicator, Oleo Pressure Indicator, Brake Temperature Monitoring, etc. Main System; Network Components	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
12	Reading a book chapter on the subject Examining sample questions	11.19 Integrated Modular Avionics (ATA 42) Functions that can be typically integrated into Integrated Modular Avionics (IMA) modules include, among others: Bleed Management, Air Pressure Control, Air Ventilation and Control, Avionics and Cockpit Ventilation Control, Temperature Control, Air Traffic Communications, Avionics Communications Router, Electrical Load Management, Circuit Breaker Monitoring, Electrical Systems BITE, Fuel Management, Braking Control, Steering Control, Landing Gear Extend and Retract, Tire Pressure Indicator, Oleo Pressure Indicator, Brake Temperature Monitoring, etc. Main System; Network Components	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
13	Reading a book chapter on the subject Examining sample questions	11.20 Cabin Systems (ATA 44) Unit and components that provide passenger entertainment facilities within the aircraft and provide communication within the aircraft (Cabin Intercom Data System) and between the aircraft cabin and ground stations (Cabin Network Service). It includes voice, data, music and video (image) transmissions. The Cabin Intercom Data System provides the interface/connection between the cockpit/cabin crew and cabin systems. These systems support the exchange of data between the different LRUs involved and typically operate with Cabin Attendant Call Panels. The Cabin Network Service typically consists of a server that is connected to, among other things: Data/Radio Communications, In-Flight Entertainment System. The Cabin Network Service may have functions such as:— Access to pre-take-off/departure reports,— E-mail/intranet/Internet access,— Passenger database; Cabin Main System; In-Flight Entertainment System; External Communications System; Cabin Mass Memory System; Cabin Monitoring System; Various Cabin Systems.	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
14	Reading a book chapter on the subject Examining sample questions	11.20 Cabin Systems (ATA 44) Unit and components that provide passenger entertainment facilities within the aircraft and provide communication within the aircraft (Cabin Intercom Data System) and between the aircraft cabin and ground stations (Cabin Network Service). It includes voice, data, music and video (image) transmissions. The Cabin Intercom Data System provides the interface/connection between the cockpit/cabin crew and cabin systems. These systems support the exchange of data between the different LRUs involved and typically operate with Cabin Attendant Call Panels. The Cabin Network Service typically consists of a server that is connected to, among other things: Data/Radio Communications, In-Flight Entertainment System. The Cabin Network Service may have functions such as:— Access to pre-take-off/departure reports,— E-mail/intranet/Internet access,— Passenger database; Cabin Main System; In-Flight Entertainment System; External Communications System; Cabin Mass Memory System; Cabin Monitoring System; Various Cabin Systems.	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
15	Reading a book chapter on the subject Examining sample questions	11.20 Cabin Systems (ATA 44) Unit and components that provide passenger entertainment facilities within the aircraft and provide communication within the aircraft (Cabin Intercom Data System) and between the aircraft cabin and ground stations (Cabin Network Service). It includes voice, data, music and video (image) transmissions. The Cabin Intercom Data System provides the interface/connection between the cockpit/cabin crew and cabin systems. These systems support the exchange of data between the different LRUs involved and typically operate with Cabin Attendant Call Panels. The Cabin Network Service typically consists of a server that is connected to, among other things: Data/Radio Communications, In-Flight Entertainment System. The Cabin Network Service may have functions such as:— Access to pre-take-off/departure reports,— E-mail/intranet/Internet access,— Passenger database; Cabin Main System; In-Flight Entertainment System; External Communications System; Cabin Mass Memory System; Cabin Monitoring System; Various Cabin Systems.	guide/steering fixed blades); Causes and effects of turbine blade stress and crippling. Lecture Question-Answer
16	-	FINAL EXAM	-
17	-	FINAL EXAM	-

KAYNAKLAR
FAA Official Website, https://www.faa.gov/ http://www.flightlearnings.com www.b737.org.uk/aircraftsystems.htm
TTS Module 11, Total Training Support Publications

ÖLÇME VE DEĞERLENDİRME
Yarıyıl İçi Yapılan Çalışmaların Ölçme ve Değerlendirmesi	Etkinlik Sayısı	Katkı Yüzdesi	Açıklama	Sınav Yapılma Şekli

(0) Etkisiz	(1) En Düşük	(2) Düşük	(3) Orta	(4) İyi	(5) Çok İyi
0	1	2	3	4	5

KNOWLEDGE
Theoretical
	Program Yeterlilikleri/Çıktıları	Katkı Düzeyi
		0	1	2	3	4	5
1	Define the basic concepts of aeronautical standards and rules. (Bloom 1)					4

KNOWLEDGE
Factual
	Program Yeterlilikleri/Çıktıları	Katkı Düzeyi
		0	1	2	3	4	5
1	Organize teamwork during the collection, interpretation, announcement and application of data related to the field. (Bloom 6)						5

SKILLS
Cognitive
	Program Yeterlilikleri/Çıktıları	Katkı Düzeyi
		0	1	2	3	4	5
1	Perform theoretical and practical knowledge related to his/her field in business life using analytical methods and modeling techniques. (Bloom 4)					4
2	Use maintenance manuals and other sources of information in business life to obtain information about the field. (Bloom3)						5
3	Determine the actualities of all technical and administrative documents related with the field. (Bloom 1)					4
4	Perform theoretical and practical knowledge related to his/her field in business life using analytical methods and modeling techniques. (Bloom 4)					4

SKILLS
Practical
	Program Yeterlilikleri/Çıktıları	Katkı Düzeyi
		0	1	2	3	4	5
1	Use computer software, information and communication technologies at the level required by the field. (Bloom 3)						5
2	Interpret the sketches, scheme, graphics that describe the subject. (Bloom 2)					4

OCCUPATIONAL
Autonomy & Responsibility
	Program Yeterlilikleri/Çıktıları	Katkı Düzeyi
		0	1	2	3	4	5
1	Develop solutions for problems faced during application. (Bloom 6)					4

OCCUPATIONAL
Learning to Learn
	Program Yeterlilikleri/Çıktıları	Katkı Düzeyi
		0	1	2	3	4	5
1	Determine the learning requirements related with his/her field. (Bloom 3)						5
2	Use the lifelong learning principles in occupational development. (Bloom 3)						5

OCCUPATIONAL
Communication & Social
	Program Yeterlilikleri/Çıktıları	Katkı Düzeyi
		0	1	2	3	4	5
1	Apply the technical drawing knowledge effectively in business life. (Bloom 3)					4
2	By informing the relevant persons and institutions about the related field; state his / her thoughts and suggestions for solutions in the field.(Bloom 1)					4
3	Debate his/her ideas and solution suggestions with experts by supporting them with quantitative and qualitative data. (Bloom 2)					4
4	Participate in training related to the field at international level. (Bloom 3)						5
5	Organize activities for the professional development of employees under his/her responsibility. (Bloom 6).						5

OCCUPATIONAL
Occupational and/or Vocational
	Program Yeterlilikleri/Çıktıları	Katkı Düzeyi
		0	1	2	3	4	5
1	Use the knowledge and skills obtained during undergraduate education in work life. (Bloom 3)						5
2	Solve the problems encountered in his/her field. (Bloom 3)					4
3	Apply the necessary culture of behavior in the areas of quality management and processes and environmental protection and occupational safety (Bloom 3)					4
4	Locate the awareness of safety factor to himself and to the team. (Bloom 1)						5

DERSİN İŞ YÜKÜ VE AKTS KREDİSİ
Öğrenme-Öğretme Etkinlikleri İş Yükü
Öğrenme-Öğretme Etkinlikleri	Etkinlik(hafta sayısı)	Süresi(saat sayısı)	Toplam İş Yükü
Lecture & In-Class Activities	14	12	168
Preliminary & Further Study	14	5	70
Land Surveying	0	0	0
Group Work	0	0	0
Laboratory	0	0	0
Reading	0	0	0
Assignment (Homework)	0	0	0
Project Work	0	0	0
Seminar	0	0	0
Internship	0	0	0
Technical Visit	0	0	0
Web Based Learning	0	0	0
Implementation/Application/Practice	0	0	0
Practice at a workplace	0	0	0
Occupational Activity	0	0	0
Social Activity	0	0	0
Thesis Work	0	0	0
Field Study	0	0	0
Report Writing	0	0	0
Final Exam	1	1	1
Preparation for the Final Exam	2	8	16
Mid-Term Exam	1	1	1
Preparation for the Mid-Term Exam	0	0	0
Short Exam	0	0	0
Preparation for the Short Exam	0	0	0
TOTAL	32	0	256