CODE: EN03
DURATION: 5 Days/10 Days
CERTIFICATIONS: CPD
This foundational course bridges the gap between fluid dynamic theory and the practical reality of aircraft flight. It explores the fundamental principles governing how air interacts with moving bodies to generate lift and drag, and then applies these principles to analyze the stability, control, and performance of aircraft. Participants will progress from the aerodynamics of air foils and wings to the complete flight mechanics of an airplane, examining the forces and moments that dictate its behavior in various phases of flight.
This course is available in the following formats:
Virtual
Classroom
Request this course in a different delivery format.
Course Outcomes
Delegates will gain the knowledge and skills to:
Apply fluid mechanics principles, including Bernoulli’s Equation, to aerodynamic flows.
Analyze aerodynamic characteristics of air foils and wings.
Calculate aircraft performance for take-off, climb, cruise, and landing.
Evaluate static stability and control, including longitudinal stability and control effectiveness.
Interpret how design affects aerodynamic properties and flight performance.
Assess the impact of environmental factors, such as wind and air density, on aircraft aerodynamics and performance.
At the end of this course, you’ll understand:
This course is essential for aerospace and mechanical engineers, aircraft designers, flight test engineers, and engineering leads involved in the analysis, design, or testing of aircraft, UAVs, and other flight vehicles to deepen their understanding of how aerodynamic and mechanical principles dictate vehicle performance, stability, and control.
✓ Modern facilities
✓ Course materials and certificate
✓ Accredited international trainers
✓ Training materials and workbook
✓ Access to online resources
