AERO_THEORY
Retrieved 16 localized data entries for sector THEORY. System integrity verified.
Aerodynamics: The Four Forces of Flight
A mathematical breakdown of lift, weight, thrust, and drag—the foundation of all MNR_FAB flight systems.
Bernoulli vs. Newton: The Lift Paradox
Deconstructing the fierce debate over what actually creates lift in a wing airframe.
VTOL Transition: The Stability Gap
Analyzing the critical physics of switching from hover to forward flight.
The Reynolds Number: Scale Theory
Why tiny drones struggle in the wind while big planes don't. Understanding fluid viscosity at scale.
Fixed-Wing Efficiency: Glide Ratios
Why 'gliding' allows drones to fly for 8 hours while quadcopters die in 30 minutes.
Swarm Intelligence: Collective Logic
The math behind 1,000 drones flying in perfect, collision-free formation.
SLAM: Navigating the Dark
How drones navigate indoors and underground using LIDAR and Visual Odometry.
Propeller Pitch: Torque vs Speed
The science of how blade angle affects speed vs. torque and the dangers of cavitation.
The Boundary Layer: Wing Skin
How 'wing skin' friction affects the battery life of long-range drones.
Magnetic Shift: Next-Gen Motors
Exploring the shift toward rare-earth magnet motors for ultra-high efficiency.
BVLOS: Long Range Protocols
The tech and sensors required for a drone to fly 50 miles away safely.
Hypersonics: Breaking Mach 5
The physics of drones that travel at Mach 5+ and the heat management challenges involved.
Bio-mimicry: Nature's Logic
Why the best new drones have wings that 'flap' like insects for ultra-maneuverability.
The Mapping Duel: Light vs Pixels
A deep dive into 3D mapping and which light-wave tech is superior for Hive intelligence.
Edge AI: Onboard Intelligence
Why the 'brain' is moving from the cloud to the drone’s onboard processor.
The Ground Effect: Air Cushions
Why drones feel 'slippery' and get extra lift when flying inches above the grass.