To give the basic concepts of incompressible aerodynamics
To solve the problems of the basic aerodynamics
To give basic information on the design of an aircraft's aerodynamics
Prerequisite(s)
Course Code Course Name…
Corequisite(s)
Course Code Course Name…
Special Requisite(s)
ATTENDANCE
Instructor(s)
Lecturer Tuncay Dil
Course Assistant(s)
Schedule
the course has not been opened this semester
Office Hour(s)
TUNCAY DIL-INCIRLI CAMPUS
Teaching Methods and Techniques
-As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
Principle Sources
-The textbook, books and other resources to help
Other Sources
-Flight Theory and Basic Aircraft Knowledge
SEYHUN DURMUŞ-THE BOOK
Course Schedules
Week
Contents
Learning Methods
1. Week
Aerodynamics concepts, pressure, density, specific volume, temperature, viscosity, elasticity, compressibility
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
2. Week
Aerodynamics concepts for the perfect gas equation of state, Units, flow rate and flow stream lines, a source of aerodynamic forces
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
3. Week
Standard Atmosphere, atmospheric physics (International Standard Atmosphere (ISA or International Standard Atmosphere), application of aerodynamics)
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
4. Week
Fluid Dynamics
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
5. Week
Aerodynamics (air flow around an object, Boundary layer, regular and irregular flows, a blast of free-flow, relative airflow, upwash and downwash, vortices, flow interruption (stagnation))
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
6. Week
Aerodynamics (terms: camber, chord, mean aerodynamic chord, profile drag, induced drag, center of pressure, angle of attack, wash in and wash out, flatness ratio, wing shape and aspect ratio)
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
7. Week
Aerodynamics (push (thrust), weight, aerodynamic junction; Lift (lift) and drag (drag) the formation
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
8. Week
Aerodynamics (Angle of attack, lift coefficient, drag coefficient, polar inclination, Stall (stall); Ice, snow, frost wing sections, including impurities.)
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
9. Week
Aerodynamics (Angle of attack, lift coefficient, drag coefficient, polar inclination, Stall (stall); Ice, snow, frost wing sections, including impurities.)
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
10. Week
Flight theory (Transportation, weight, thrust and drag relationships between
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
11. Week
Flight theory (Drip rate, the steady state (steady state) flights, performance)
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
12. Week
Flight theory (the theory of rotation, the effects of load factor: Stall, flight envelope (flight envelope), and structural constraints, increasing the carriage.)
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
13. Week
Flight Theory (Theory of the turn; Influence of load factor: Stall, flight envelope (flight envelope), and structural constraints, increasing the carriage.)
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
14. Week
light stability and dynamics (longitudinal, lateral and directional stability (active and passive).)
As Teaching methods and techniques, Lecturing, showing modeling, problem solving, question-answer, group work,practical work, research and teaching methods and ndividual techniques
15. Week
Final Exam
Classic, Test , Other
16. Week
17. Week
Assessments
Evaluation tools
Quantity
Weight(%)
Program Outcomes
PO-1
Having the necessary equipment for aircraft weight and balance
PO-2
Having basic Civil Aviation knowledge
PO-3
Having knowledge about Flight Operations Management
PO-4
Having knowledge about national aviation organizations
PO-5
To have the terminology used in the field of civil aviation
PO-6
Having knowledge about aircraft basic structure
PO-7
Having knowledge about the operational operation which is in charge at every stage of the flight
PO-8
Having knowledge about aircraft aerodynamics
PO-9
A detailed learning of aircraft navigation systems
PO-10
To have information about the science of meteorology and to examine the effect of meterology on flight operations
PO-11
Having knowledge about aviation communication and navigation systems
PO-12
Having knowledge about air traffic management
PO-13
Being aware of the importance of safety in aviation
Learning Outcomes
LO-1
To express / understand basic Aerodynamics literature
LO-2
To make the necessary calculations for the theory of flight