Course Title: Aerodynamics I
Part A: Course Overview
Program: C5021 Diploma of Engineering (Aerospace) (Mechanical)
Course Title: Aerodynamics I
Portfolio: SEH Portfolio Office
Nominal Hours: 60
Regardless of the mode of delivery, represent a guide to the relative teaching time and student effort required to successfully achieve a particular competency/module. This may include not only scheduled classes or workplace visits but also the amount of effort required to undertake, evaluate and complete all assessment requirements, including any non-classroom activities.Course Code |
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Course Contact: Steven Bevan
Course Contact Phone: +61 3 9925 4137
Course Contact Email: steven.bevan@rmit.edu.au
Course Description
The purpose of this course is to provide participants with underpinning knowledge of low speed aerodynamic theory, stability and control.
This course develops the fundamental knowledge in the aerodynamic principles of flight including:
• Flight
• Longitudinal, lateral and directional static stability
• Steady, straight, gliding, power, thrust and climb calculations.
Pre-requisite Courses and Assumed Knowledge and Capabilities
MATH5156 Aerospace Mathematics 1
ONPS5098 Aerospace Physics 1
AERO5383 Theory of Flight
National Competency Codes and Titles
National Element Code & Title: |
VBH736 Aerodynamics I |
Elements: |
10. Discuss, graph and perform calculations involving power and thrust. 11. Discuss, graph and perform aerodynamic calculations for steady climbing flight. 2. Discuss and perform aerodynamic calculations for airflow boundary layer over flat thin plate. 3. Graph and discuss the relationship between drag, speed and altitude. 4. Perform calculations relating to subsonic airspeed measurement. 5. Observe measure and discuss the effectiveness of various lift augmentation devices. 6. Discuss and graph aspects of aircraft longitudinal static stability and related factors. 7. Discuss and graph factors that affect the lateral and directional stability of an aircraft and perform related calculations. 8. Discuss and perform calculations relating to steady straight and level flight. 9. Discuss and perform calculations relating to steady gliding flight. 1. Measure, draw, discuss and interpret the distribution of aerodynamic forces on a subsonic two dimensional aerofoil. |
Learning Outcomes
Overview of Assessment
To successfully to complete this course the student is required to pass written assessment tasks and demonstrate skills and ability by completing practical tasks to aerospace standards.