Course Code	Semester	Course Name	LE/RC/LA	Course Type	Language of Instruction	ECTS
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Course Goals
Prerequisite(s)
Corequisite(s)
Special Requisite(s)
Instructor(s)
Course Assistant(s)
Schedule
Office Hour(s)
Teaching Methods and Techniques
Principle Sources
Other Sources

Course Schedules
Week	Contents	Learning Methods
1. Week	Thermodynamic calculations in gas turbine engines	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
2. Week	Performance calculations in gas turbine engines	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
3. Week	Engine parts	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
4. Week	Lubrication, fuel, air, first action, ignition and power boost systems	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
5. Week	Turbo-prop engines	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
6. Week	Turbo-shaft motors	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
7. Week	Auxiliary power unit (APU)	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
8. Week	Midterm
9. Week	Engine placement and protection	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
10. Week	Engine starting and bremze	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
11. Week	Engine starting and bremze	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
12. Week	Motor display systems	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
13. Week	Motor display systems	Lectures, question-answer, discussion, problem solving, excursion observation, laboratory (experiment), case study methods, brainstorming, demonstration, dual and group work, micro learning, computer assisted instruction techniques will be used.
14. Week	Final
15. Week
16. Week
17. Week

Assessments
Evaluation tools	Quantity	Weight(%)

Program Outcomes PO-1 Having the knowledge of basic principles, rules and laws of aircraft and aerospace systems. PO-2 The ability of recognizing and using the structural characteristics of the aircraft and the aircraft related maintenanceandtools. PO-3 Applying the knowledge of basic issues related to aircraft electronics. PO-4 Technical drawing and know the rules of civil aviation PO-5 Applying the relevant standards for aircraft maintenance and repairment PO-6 Aircraft automatic control methods PO-7 By performing algorithms and programming to set microcontroller circuits PO-8 Ensuring operatıonal safety of electronic materıal and performing basic measurements PO-9 The ability of analyzing aircraft electrical-electronic systems, materials and failure PO-10 Installing digital, analog and power electronics circuits PO-11 Performıng cyber communıcatıon of control system and settıng sensor systems PO-12 Applyıng standards and assurance of qualıty, abılıty of usıng foreıgn languages PO-13 Values of professıonal ethıcs, usıng communıcatıon technologıes and performıng reseaches PO-14 Performıng first aid /wounded patients İn Case of emergency and protectıng the environment PO-15 Performing matmatıcs applıcatıons

Learning Outcomes LO-1 To be able to define and maintain engine parts LO-2 To be able to define and maintain the lubrication and fuel system. LO-3 Turboprop and Turboshaft motors to understand the working principles and maintenance. LO-4 To run the engine on the ground and monitoring operations. LO-5 To understand and maintain the principles of motor display systems.

Course Assessment Matrix: