Consider a wire with length {w= 45.00cm and radius ofr = 0.0100m that has a density of p = 1.930×10* kg Figure 2. The magnitude of the magnetic field between the two magnets is B = 3.0559T , while each magnet has a width &m= 25.00cm. What should be the magnitude and direction of the current in the wire such that it is levitated between the two magnets? Assume that the region of magnetic field has the same dimensions as the magnets. m3 kg . The wire runs between two magnets as shown in

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2)
S
lw
lm
N
Figure 2: Current carrying wire between two magnets.
Consider a wire with length {w= 45.00cm and radius of r = 0.0100m that has a
density of p = 1.930×104 kg
kg . The wire runs between two magnets as shown in
m3
Figure 2. The magnitude of the magnetic field between the two magnets is B =
3.0559T , while each magnet has a width {m= 25.00cm. What should be the
magnitude and direction of the current in the wire such that it is levitated between the
two magnets? Assume that the region of magnetic field has the same dimensions as
the magnets.
Transcribed Image Text:2) S lw lm N Figure 2: Current carrying wire between two magnets. Consider a wire with length {w= 45.00cm and radius of r = 0.0100m that has a density of p = 1.930×104 kg kg . The wire runs between two magnets as shown in m3 Figure 2. The magnitude of the magnetic field between the two magnets is B = 3.0559T , while each magnet has a width {m= 25.00cm. What should be the magnitude and direction of the current in the wire such that it is levitated between the two magnets? Assume that the region of magnetic field has the same dimensions as the magnets.
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