> -----Original Message----- > From: Jon Berndt > Sent: 28 July 2004 3:47 pm > To: FlightGear developers discussions > Subject: RE: [Flightgear-devel] Taildragger takeoff and landing > <snip> > > I've heard it described several ways (lift); I think you're > pretty close. I don't know if > I'd say "partial vacuum", though, which might give an > exaggerated impression. Thinking of > Bernoulli's nozzle example from elementary physics, the flow > over the top, curved surface > of a wing sees faster airflow, and lower pressure. > Integrating the pressure over the lower > and upper surfaces of the wing results in a net upward force > (assuming steady-state > flight). Probably there is a bit of both pushing _and_ > pulling going on. If the lower > surface of the wing is at a positive alpha, it's not too > difficult to think that there is > some "pushing" going on. > > Well, it would be interesting to get Tony's impression, and > of course a physicist will > describe this in his own way, too. > > Jon >
Well as a physicist (but with no formal aeronautical education), I always think of it as the wing is pushing air down, which causes an "equal and opposite force" (to quote Newton) of the air pushing the wing up. Hence acrobatic aircraft with symmettrical wings can still fly. The key to wing shape design is to keep the air flow attached to both the upper and lower surface so that you can change the direction of airflow. Once the flow detaches (a stall), you are not pushing the air down any more, so it isn't pushing you up. Richard ________________________________________________________________________ This e-mail has been scanned for Bede Scientific Instruments for all viruses by Star Internet. The service is powered by MessageLabs. For more information on a proactive anti-virus service working around the clock, around the globe, visit: http://www.star.net.uk ________________________________________________________________________ _______________________________________________ Flightgear-devel mailing list [EMAIL PROTECTED] http://mail.flightgear.org/mailman/listinfo/flightgear-devel 2f585eeea02e2c79d7b1d8c4963bae2d
