Solving Faraday's Law: 0.73V Induced EMF Help Needed

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Bolter
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Homework Statement
Calculate EMF induced on tips of an aircraft wing
Relevant Equations
Faraday's law
Screenshot 2020-02-19 at 17.38.38.png

I have a simple sketch of the diagram, and I know I must use the vertical component of the magnetic field of the Earth when doing this problem

IMG_3901.JPG


I got an induced emf of 0.73 volts but I do not know if I correctly substituted the right values into faraday's law equation?

Any help will be really appreciated! Thanks
 
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I agree with the answer you gave, though I think you're supposed to treat the wingspan as a conducting rod. Like @berkeman mentioned, there isn't a rate of change of flux linked in the actual wing, only the flux linked in an imaginary loop like below:

1582134921795.png


We then have ##\varepsilon = B_{v}lv## where the three terms are mutually orthogonal.
 
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The Lorentz Force will exert forces on the electrons in the wing material, so maybe there is a way to calculate the voltage generated that way. The force due to qv X B will be balanced by qE, so there will be an electric field pointing along the wing. That will generate a small voltage, but I don't think you can use dΦ/dt to do the calculation, since Φ is not changing.
 
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Do you get that same answer when you use the Hyperphysics calculator that I linked?
 
berkeman said:
Do you get that same answer when you use the Hyperphysics calculator that I linked?

Yes :)
 
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berkeman said:
... I don't think you can use dΦ/dt to do the calculation, since Φ is not changing.
I second that. In general it is dangerous to apply maxwell' s equations (which is what Farady's law is based on) to moving media.
The correct way is to use the Blv law which is what @berkeman stated.
 
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