factor. When it stalls, the force on the wing is topped out. Thus the
lift at 1g is the weight of the plane plus the downward pressure on the
elevator. At 5.7g it would be 5.7 times as much. This gives the limiting
lift of the wing. Increase the weight, and you decrease the limiting g
factor proportionally. This assumes you keep the penetration airspeed
the same for different weights. If you want to fiddle the airspeed, lift
is proportional to V^2.
This gets a little more elaborate when dealing with Vne and turbulence
penetration but the idea above pretty much covers the basics.
Hope this moves you in the right direction. Not a simple question Drew.
Garry
On Sun, 2006-06-04 at 19:55 -0400, Drew Dalgleish wrote:
If the rebel has a G limit of +5.7, -3.8 at 1650 lbs How do I caculate what
the limit would be at a higher weight? TIA Drew
Drew
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