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Tag Archives: Anyone Can Fly
The Short Field Landing
Yesterday, I talked about the Miracle of Lift. Today, I will pass on some of the secrets of the short field landing. We’ll also discuss how the lift equation plays so importantly in “making the point.” One of the most … Continue reading →
Posted in Aviation, Flight Instructing, Flying
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Tagged .002377 slugs per cubic foot, A Few Good Men, airspeed, altitude, Anyone Can Fly, arrive at the spot right at stall speed, coefficient of lift, Colonel Nathan R. Jessep, coordination of speed and AoA, Country airports, descent path, L=1/2 r V2 Cl S, landing short of the runway, lift equals speed times angle of attack (L = S x AoA), pitch, Power, rho, short field landings, short grass runways, the lift equation, The Mystery of Lift, the power curve, The Short Field Landing, the truth, velocity squared, where to aim, wing area, writer-editor Jules Bergman, “float”, “making the point”
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2 Comments
The Mystery of Lift
In science writer-editor Jules Bergman’s book, Anyone Can Fly, he talks about asking a little boy why airplanes fly. The child explains, in essence, that airplanes float on the air. I like that—because it is so simple—and almost true. When … Continue reading →
Posted in Aviation, Flight Instructing, Flying
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Tagged .002377 slugs per cubic foot, A Few Good Men, airspeed, altitude, Anyone Can Fly, coefficient of lift, Colonel Nathan R. Jessep, L=1/2 r V2 Cl S, pitch, Power, rho, short field landings, The Mystery of Lift, the power curve, the truth, velocity squared, wing area, writer-editor Jules Bergman
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2 Comments