Controlling Helicopters: The Physics of Movement Around the ...
16K views · Jan 17, 2024 aircraftsystemstech.com
Welcome to our in-depth lesson on helicopter control around the axes, tailored specifically for aviation students and technicians! Understanding how to effectively maneuver a helicopter is crucial for both aspiring pilots and those involved in aviation maintenance. What You’ll Discover: The Three Axes of Helicopter Flight: Gain a clear understanding of the longitudinal, lateral, and vertical axes and their impact on helicopter dynamics. Control Inputs Explained: Learn about the roles of the cyclic, collective, and anti-torque pedals in achieving precise control during flight. Physics Behind the Control: Explore the aerodynamic principles that govern helicopter movements, helping you understand the forces at play. Why This Matters: Whether you're training to fly or working on aircraft systems, mastering helicopter control around the axes is essential for safety and performance. This lesson will equip you with the knowledge needed to understand and apply these concepts in real-world scenarios. To learn more visit: https://www.aircraftsystemstech.com https://www.flight-study.com https://www.patreon.com/aeronauticsguide 0:00 Introduction 0:40 Vertical axis 1:56 Longitudinal and Lateral axes
Bernoulli’s Principle and Subsonic Flow | Physics for Avia...
3K views · Jan 17, 2024 aircraftsystemstech.com
Discover the wonders of Bernoulli's Principle and its profound impact on aircraft lift. Delve into the theory of flight as we unravel the intricate mechanisms that enable airplanes to conquer the skies. Gain insights into the interplay between air pressure, velocity, and lift, and witness how these principles come together to keep aircraft airborne. Join us as we explore the captivating world of aviation and deepen our understanding of the science behind flight. #aviation #aviationenthusiast #aircraftmechanic #aviationmaintenance #aircraftmaintenance #physics #bernoullisprinciple To learn more visit: https://www.aircraftsystemstech.com https://www.flight-study.com https://www.patreon.com/aeronauticsguide 0:00 Introduction 0:44 Venturi 1:42 Bernoulli’s Principle and Subsonic Flow
Understanding Aircraft Structural Stresses: The Science Behi...
25K views · Jan 17, 2024 aircraftsystemstech.com
In this detailed video, we explore the essential concepts of aircraft structural stresses and how they impact the design and performance of modern airplanes. Geared towards engineering students and professionals, we’ll cover the critical types of stress and strain that affect aircraft components during flight, including tension, compression, shear, torsion, and bending. We’ll cover: The fundamental relationship between stress and strain in materials How tension and compression impact wings, fuselage, and landing gear The effects of shear and torsion on aircraft structural integrity The role of bending moments in maintaining aircraft stability Engineering techniques used to analyze and mitigate these stresses for safety This video is perfect for those studying aerospace engineering or anyone in the field looking to strengthen their knowledge of structural analysis. Enhance your understanding of how aircraft endure the intense forces they encounter in flight! #aviation #aerospace #aircraftmechanic To learn more visit: https://www.aircraftsystemstech.com https://www.flight-study.com https://www.patreon.com/aeronauticsguide 0:00 Introduction 1:14 Tension 1:41 Compression 2:23 Torsion 3:11 Shear 3:42 Bending
Aircraft Stability | Theory of Flight | Physics for Aviation
18K views · Sep 28, 2023 aircraftsystemstech.com
Embark on a journey into the world of aircraft stability with this captivating YouTube video. Join us as we explore the intricate dynamics that govern the stability of airplanes in flight. From the role of the tailplane to the significance of yaw, pitch, and roll, we delve into the essential aspects that contribute to a stable and controlled flight. Whether you are an aspiring pilot or simply fascinated by the mechanics of aviation, this video provides a comprehensive overview of aircraft stability. Enhance your understanding of the forces at play and gain a newfound appreciation for the engineering marvels that enable safe and smooth flights. #aviation #aviationenthusiast #airplane #aircraft #flying #aircraftmechanic #aviationmaintenance #aircraftmaintenance To learn more visit: https://www.aircraftsystemstech.com https://www.flight-study.com https://www.patreon.com/aeronauticsguide 0:00 Introduction 0:03 Aircraft Stability 0:35 Static Stability 1:26 Dynamic Stability 3:18 Longitudinal Stability 5:35 Lateral Stability 6:31 Directional Stability
Helicopter Structures and Airfoils: Key to Aerodynamic Perfo...
32K views · Aug 24, 2023 aircraftsystemstech.com
In this video, we focus on the critical role of helicopter structures and airfoils. Whether you're an aerospace engineering student or an aviation enthusiast, this guide will help you understand how helicopters generate lift, maintain stability, and maneuver through the air. We’ll cover key topics such as: The design and function of rotor blades and their specialized airfoils How rotor blade structures handle aerodynamic forces and stresses The role of airfoils in producing lift and controlling helicopter flight dynamics Key aerodynamic principles like induced flow, blade angle of attack, and vortex generation This video is ideal for those seeking to understand the unique engineering challenges of helicopter design and the importance of airfoil shapes in performance. Perfect for aerospace engineering students or professionals looking to deepen their knowledge of helicopter aerodynamics.. #aviation #aerospace #helicopter To learn more visit: https://www.aircraftsystemstech.com https://www.flight-study.com https://www.patreon.com/aeronauticsguide 0:00 Introduction 0:22 Main Rotor Systems 2:28 Anti-Torque Systems
Understanding Fluid Mechanics: Key to Aviation Physics
3K views · May 16, 2024 aircraftsystemstech.com
In this video, we explore fluid mechanics and its vital role in aviation physics, helping to explain the science behind how aircraft fly. From the behavior of airflows to the forces acting on an airplane, this lesson covers the key principles that every student, pilot, and aviation enthusiast should understand. Key topics include: Buoyancy and Fluid Pressure: Learn how pressure differences in fluids (like air) contribute to the forces that keep aircraft aloft. Pascal’s Law: Discover how pressure is transmitted through fluids and its applications in hydraulic systems used in aviation. Bernoulli’s Principle: See how this fundamental concept explains how airflow and pressure differences help generate lift, crucial for flight. Airfoil Design and Lift: Understand how the shape of wings and airfoils influences lift and drag forces to optimize performance. Continuity and Navier-Stokes Equations: Explore how these equations model fluid flow, aiding in the design and analysis of aircraft aerodynamics. This video offers a detailed yet accessible breakdown of how fluid mechanics applies to flight. Whether you're a student of aviation, an engineer, or a pilot-in-training, this lesson will deepen your understanding of the physics that keep aircraft in the sky! To learn more visit: https://www.aircraftsystemstech.com https://www.flight-study.com https://www.patreon.com/aeronauticsguide 0:00 Introduction 0:42 Buoyancy 3:33 Fluid Pressure 4:52 Pascal’s Law
Understanding Fluid Mechanics: Key to Aviation Physics
3K views · May 16, 2024 aircraftsystemstech.com
In this video, we explore fluid mechanics and its vital role in aviation physics, helping to explain the science behind how aircraft fly. From the behavior of airflows to the forces acting on an airplane, this lesson covers the key principles that every student, pilot, and aviation enthusiast should understand. Key topics include: Buoyancy and Fluid Pressure: Learn how pressure differences in fluids (like air) contribute to the forces that keep aircraft aloft. Pascal’s Law: Discover how pressure is transmitted through fluids and its applications in hydraulic systems used in aviation. Bernoulli’s Principle: See how this fundamental concept explains how airflow and pressure differences help generate lift, crucial for flight. Airfoil Design and Lift: Understand how the shape of wings and airfoils influences lift and drag forces to optimize performance. Continuity and Navier-Stokes Equations: Explore how these equations model fluid flow, aiding in the design and analysis of aircraft aerodynamics. This video offers a detailed yet accessible breakdown of how fluid mechanics applies to flight. Whether you're a student of aviation, an engineer, or a pilot-in-training, this lesson will deepen your understanding of the physics that keep aircraft in the sky! To learn more visit: https://www.aircraftsystemstech.com https://www.flight-study.com https://www.patreon.com/aeronauticsguide 0:00 Introduction 0:42 Buoyancy 3:33 Fluid Pressure 4:52 Pascal’s Law
High-Speed Aerodynamics: The Science of Flight
872 views · Oct 7, 2024 aircraftsystemstech.com
Welcome to our comprehensive look at high-speed aerodynamics! In this video, we’ll explore the critical concepts that define flight at incredible speeds, focusing on the speed of sound, various types of shock waves, and the design of high-speed airfoils. 🌬️ What You'll Learn: Speed of Sound: Discover how the speed of sound varies with altitude and temperature, and its significance in aviation. Types of Shock Waves: Understand the different types of shock waves—including normal shocks, oblique shocks, and expansion fans—and their effects on aircraft performance. High-Speed Airfoils: Dive into the design principles behind airfoils optimized for supersonic and hypersonic flight, including how they mitigate shock wave impacts. ✈️ Who Is This For? Whether you’re an aviation enthusiast, a physics student, or simply curious about how aircraft operate at high speeds, this video is designed to enhance your understanding of these complex phenomena. #aviation #aerodynamics #physics #aerospace #stemtok To learn more visit: https://www.aircraftsystemstech.com https://www.flight-study.com https://www.patreon.com/aeronauticsguide 0:00 Introduction 0:21 Compressibility Effects 1:02 The Speed of Sound 3:22 Shock Waves 5:22 High-Speed Airfoils 7:45 Aerodynamic Heating