Mechanics of Flight by AC Kermode
This book is recommended for the following DGCA / EASA
- Module 7A MAINTENANCE PRACTICES
- Module7B MAINTENANCE PRACTICES
Link is given below to Download pdf of the book
Mechanics of Flight is a comprehensive textbook written by A.C. Kermode that covers the fundamentals of aerodynamics and aircraft performance. This textbook is an essential resource for students studying aerospace engineering, as well as professionals working in the aviation industry.
The book is divided into 16 chapters, each covering a different aspect of flight mechanics. The first chapter introduces the basics of flight, including the different types of forces that act on an aircraft in flight, and the principles of flight stability and control.
Chapter two covers the principles of fluid mechanics, including the different types of fluids and their properties, the principles of fluid flow, and the different types of flow regimes. This chapter also covers the principles of compressible and incompressible flow, as well as the different types of flow losses and their effects on aircraft performance.
Chapter three focuses on the principles of aerodynamics, including the different types of airfoils and their characteristics, the principles of lift and drag, and the different types of flow regimes around airfoils. This chapter also covers the principles of wing design, including the different types of wing planforms, wing loading, and aspect ratio.
Chapter four covers the principles of aircraft performance, including the different types of aircraft performance parameters, such as speed, altitude, and range. This chapter also covers the principles of aircraft propulsion, including the different types of propulsion systems and their performance characteristics.
Chapter five covers the principles of aircraft stability and control, including the different types of aircraft stability, the principles of longitudinal, lateral, and directional control, and the different types of control surfaces and their functions. This chapter also covers the principles of aircraft static stability and dynamic stability, as well as the different types of stability augmentation systems.
Chapter six covers the principles of aircraft dynamics, including the different types of aircraft motions, the principles of aircraft forces and moments, and the different types of aircraft equations of motion. This chapter also covers the principles of aircraft response, including the different types of aircraft response modes and the different types of aircraft stability derivatives.
Chapter seven covers the principles of aircraft instrumentation and measurement, including the different types of aircraft sensors and their functions, the principles of aircraft measurement systems, and the different types of aircraft data acquisition systems.
Chapter eight covers the principles of aircraft design, including the different types of aircraft design requirements, the principles of aircraft configuration design, and the different types of aircraft performance and stability analysis tools.
Chapter nine covers the principles of high-speed flight, including the different types of supersonic flow regimes, the principles of supersonic lift and drag, and the different types of supersonic aircraft design considerations. This chapter also covers the principles of hypersonic flight, including the different types of hypersonic flow regimes and the different types of hypersonic aircraft design considerations.
Chapter ten covers the principles of aircraft noise, including the different types of aircraft noise sources, the principles of aircraft noise generation, and the different types of aircraft noise reduction technologies.
Chapter eleven covers the principles of aircraft icing, including the different types of aircraft icing conditions, the principles of aircraft icing physics, and the different types of aircraft icing prevention and removal technologies.
DGCA Books for AME / EASA Module book pdf.
Chapter twelve covers the principles of flight testing, including the different types of flight test programs, the principles of flight test instrumentation, and the different types of flight test maneuvers.
Chapter thirteen covers the principles of aircraft operations, including the different types of aircraft operations, the principles of aircraft performance monitoring, and the different types of aircraft maintenance and inspection procedures.
Chapter fourteen covers the principles of aircraft safety, including the different types of aircraft accidents and their causes, the principles of aircraft accident investigation, and the different types of aircraft safety regulations.
Chapter fifteen covers the principles of unmanned aerial vehicles (UAVs), including the different types of UAVs and their applications, the principles of UAV design and performance, and the
Throughout the book, A.C. Kermode uses a combination of diagrams, illustrations, and mathematical equations to explain the different principles and techniques used in flight mechanics. He also provides numerous examples and exercises, as well as case studies of different aircraft and spacecraft, to demonstrate the practical application of
