Calculate Minimum Wing Area for Plane in Air | Bernoulli's Equation

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SUMMARY

The minimum wing area required to keep a small plane of mass 3000 kg in the air, given air density of 1.0 kg/m³ and velocities of 160 m/s over the top and 130 m/s underneath the wings, is calculated using Bernoulli's equation. The upward force generated by the pressure difference is 4350 N/m². To maintain equilibrium, this upward force must equal the downward gravitational force (mg). The final calculated wing area is 6.75 m², or 3.37 m² per wing.

PREREQUISITES
  • Understanding of Bernoulli's equation
  • Knowledge of pressure equations (P=F/A)
  • Familiarity with gravitational force calculations (F=mg)
  • Basic principles of aerodynamics
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PetetheGreek
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Hi guys, new here just wanted to say hello and I stumbled across this site while studying for my final, great site, now onto my question...

Homework Statement


A small plane of mass 3000 kg is flying in air of density 1.0 kg/m3. Air moves over the top and
bottom of the surface of the wings at velocities of 160 m/s and 130 m/s, respectively. What is
the minimum wing area needed, to keep the plane in air?


Homework Equations


Bernoullis equation and Area = Force/Pressure


The Attempt at a Solution


Ive found change in pressure to be 4350N/m2 but I can't find the force, nor am I sure how much pressure is needed to keep the plane in the air, any help would be appreciated, thanks in advance =/
 
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Well you have half the problem solved then. This pressure will cause an upward force on the wings. If you remember your pressure equation P=F/A then you can get the upward force knowing the surface area of the wings.

Then you ask yourself why does it need an upward force. Well what could be causing the plane to go down? And you remember that gravity has a downward force. So look up the force of gravity equation.

Then equate the two forces and solve for the surface area needed.

P.S.: A plane has 2 wings, so be sure to divide this surface area in half for the area needed on one wing.
 
The first thing that a lot of people forget to think about is to equilibrate the forces.

To just keep the plane in the air Force up = Force down.

Force down is mg...

Think about where you might get force up from...
 
awesome guys, thanks a bunch! i figured it out, 6.75m2, or 3.37 per wing
 

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