Assuming that the force the magnetic field exerts on the loop is negligible, what is the current (in Ampere) in the loop at the moment of impact with the ground? Use g = 10 m/s².

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A square loop with side length a = 1.9 m and total resistance R = 2.1 , is
dropped from rest from height h = 3.6 m in an area where magnetic field
exists everywhere, perpendicular to the loop area.
The magnetic field is not constant, but varies with height according to:
B(y) = Boe, where Bo = 7.5 T and D = 6.6 m.
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Assuming that the force the magnetic field exerts on the loop is negligible,
what is the current (in Ampere) in the loop at the moment of impact with the
ground?
Use g = 10 m/s².
Transcribed Image Text:A square loop with side length a = 1.9 m and total resistance R = 2.1 , is dropped from rest from height h = 3.6 m in an area where magnetic field exists everywhere, perpendicular to the loop area. The magnetic field is not constant, but varies with height according to: B(y) = Boe, where Bo = 7.5 T and D = 6.6 m. y B 9.60 X O O ● ● ● ● • · • ● . ● ● ● . ● vo ● ● ● ● h Ⓡ ● ● g X a Assuming that the force the magnetic field exerts on the loop is negligible, what is the current (in Ampere) in the loop at the moment of impact with the ground? Use g = 10 m/s².
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