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En aeronáutica, el efecto quilla (también conocido como efecto péndulo o estabilidad pendular) 1 es el resultado de que las superficies generadoras de fuerza lateral estén por encima (o por debajo) del centro de masas (que coincide con el centro de gravedad) en una aeronave.
Keel effect is a design feature of aircraft that gives it lateral stability. In other words, the keel effect of an aircraft’s shape will keep it from rolling. Keel effect helps keep the airplane flying straight ahead instead of entering a turn every time it hits a little turbulence.
In aeronautics, the keel effect (also known as the pendulum effect or pendulum stability) is the result of the sideforce-generating surfaces being above (or below) the center of mass (which coincides with the center of gravity) in an aircraft.
13 de abr. de 2017 · Learn what the keel effect is and how it affects the stability and control of aircraft in sideslip conditions. Compare it with the pendulum effect and see examples of aircraft with or without keel effect.
Keel effect is also called "Pendulum Effect" because a lower center of gravity increases the effect of sideways forces (above the center of gravity) in producing a rolling moment. This is because the moment arm is longer, not because of gravitational forces.
Keel effect explained. In aeronautics, the keel effect (also known as the pendulum effect or pendulum stability) is the result of the sideforce-generating surfaces being above (or below) the center of mass (which coincides with the center of gravity) in an aircraft.
Learn how to determine the critical engine in a multi-engine aircraft based on four aerodynamic factors: P-factor, accelerated slipstream, spiraling slipstream, and torque. The web page explains the concepts with diagrams, videos, and examples.
