What is the net vertical force on an airplane with given parameters?

AI Thread Summary
The discussion focuses on calculating the net vertical force on an airplane using given parameters, including mass, wing area, and air density. Participants suggest applying Bernoulli's equation to determine the pressure difference between the top and bottom surfaces of the wings, which contributes to lift. The lift force is calculated by multiplying the pressure difference by the wing's cross-sectional area. Additionally, the weight of the airplane is subtracted from the lift to find the net vertical force. The conversation emphasizes the importance of understanding these principles in aerodynamics.
tonyp910
hey guys i just found this site and its very helpful. so if u guys can help. it will be greatly appreciated
i have this problem to solve but i stuck on solveing for the height of the airplane to find the force.
so if anyone can assist me it will be great.
thanks

Lift on an Airplane. Air streams horizontally past a small airplane's wings such that the speed is 75. over the top surface and 58.5 past the bottom surface.

If the plane has mass 1250 and a wing area of 14.9 , what is the net vertical force (including the effects of gravity) on the airplane? The density of the air is 1.2 . Take the free fall acceleration to be 9.8 .

find force in N.
 
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What I suspect is that they want you to apply Bernoulli's equation to the airflow across top and bottom to find the pressure difference. That pressure difference will produce a net force (of the air on the plane, ignoring drag) acting upward. The weight of the plane acts downward.

(Whether you can really justify using Bernoulli in this case is another story. Just do the exercise!)
 
Lift on an Airplane

this how i did it
solve for delta p=1/2(rho)(velocityoftop)^2 - 1/2(rho)(velocityofbottom)^2
then
Lift = delta p*cross sectional area
force of lift = lift - (m*g) <-mass of plane

email your number and your address and your brain

too easy [zz)]
 
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