Principles of Flight and Aviation

Beginner

Upon completing this course, students will be able to: - Identify the Components and Systems of Aircraft and Unmanned Aerial Systems (UAS): Recognize the key components of manned and unmanned aircraft, including propulsion systems, control systems, and avionics; explain the functions of these components and systems. - Apply the Principles of Aerodynamics to UAS Design: Analyze the design considerations specific to UAS using knowledge of aerodynamics; discuss how UAS designs accommodate their unique operational environments and purposes. - Implement Flight Planning and Navigation Techniques: Plan flights by considering route selection, altitude, and airspace restrictions; utilize navigation tools and technologies to ensure precision and safety during flights. - Demonstrate Understanding of Basic Meteorological Concepts: Describe fundamental meteorological principles, including the dynamics of the atmosphere and weather systems; explain the factors influencing weather conditions.

None

- Flight Mechanics: Understanding the fundamental forces of flight (lift, drag, weight, and thrust) and how they influence an aircraft's movement and stability. - Aerodynamics: Introduction to airflow around the aircraft's body, its effects on flight characteristics, and its significance in UAS design. - UAS and Instruments: Overview of the significant systems in human-crewed and crewless aircraft, including propulsion, navigation, and control systems. - UAS Types and Technologies: Detailed examination of various types of UASs, their design considerations, and the technologies that enable their flight capabilities. - Flight Control and Navigation: Understanding how UAS are controlled remotely and autonomously, including GPS, gyroscopes, and other sensors. - Operational Applications of UASs: Exploring the diverse uses of UASs in commercial, environmental, and humanitarian fields, as well as their impact on various industries. - Future Trends in Aviation and UAS Technology: The latest advancements in UAS technology, potential future applications, and the direction of the aviation industry. - Fundamentals of Meteorology: Introduction to meteorology, including atmospheric structure, composition, and the global climate system. The basics of weather phenomena and their formation. - Weather systems and patterns: Examination of different weather systems (e.g., fronts, high- and low-pressure systems) and patterns, including their development and weather forecasting principles.

- Principles of Flight eTextbook. https://www.aviationexam.com/ - Illman, Paul E. (2000). The Pilot's Handbook of Aeronautical Knowledge, McGraww-Hill. ISBN: 978-0070317826. - Principles of Flight for PPL and Beyond. (2007). Oxford Aviation Academy Limited. ISBN: 978-0955517747. - Torenbeek, E., & Wittenberg, H. (2020). Flight Physics: Essentials of Aeronautical Disciplines and Technology, with Historical Notes. Springer. ISBN: 978-3030331431. - Federal Aviation Administration (FAA). (2021). Pilot’s Handbook of Aeronautical Knowledge (FAA-H-8083-25B). U.S. Department of Transportation. ISBN: 978-1619549920.

Portfolio tests

Englisch

5

15

2.5

Presentation, group work, discussion, exercises,

1

1_2

Integrierte Lehrveranstaltung

Pflichtfach