The figure below shows a loop of wire of width a = 0.566 m, height b = 0.111 m, and resistance R = 0.001722 which has its center a distance r from an infinite wire carrying a constant current i = 29 A. At a given value of r, the loop has a magnitude of magnetic flux through it which is given μία b/2 2π r- b/2 by (Hoia) In (r+ b . If at a particular instant of time the center of the loop is a distance r = 0.308 m from the wire and the loop is moving away from the wire with speed v = what is the magnitude of the net force on the loop? 16.7 m/s, N

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Publisher:Robert L. Boylestad
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The figure below shows a loop of wire of width a = 0.566 m, height b = 0.111 m, and resistance
R
= 0.00172 2 which has its center a distance r from an infinite wire carrying a constant current
i = 29 A. At a given value of r, the loop has a magnitude of magnetic flux through it which is given
μοία
by
Hoia) In (r+ b/2). If at a particular instant of time the center of the loop is a distance
2π
-
.
r = 0.308 m from the wire and the loop is moving away from the wire with speed v = 16.7 m/s,
what is the magnitude of the net force on the loop?
N
i
Hint
a
b
Transcribed Image Text:The figure below shows a loop of wire of width a = 0.566 m, height b = 0.111 m, and resistance R = 0.00172 2 which has its center a distance r from an infinite wire carrying a constant current i = 29 A. At a given value of r, the loop has a magnitude of magnetic flux through it which is given μοία by Hoia) In (r+ b/2). If at a particular instant of time the center of the loop is a distance 2π - . r = 0.308 m from the wire and the loop is moving away from the wire with speed v = 16.7 m/s, what is the magnitude of the net force on the loop? N i Hint a b
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