A long, straight, uniformly charged wire has a linear charge density 2. The wire passes through a nonconducting sphere of radius r = 1.95 m whose center is at a distance d' from the wire. When d = 1.15 m, the flux through the surface of the sphere is -7.65 x 10³ Nm²/C. What is the linear charge density of the wire? Note that the diagram is not to scale. The wire is infinitely longer than shown here. UC/m d
A long, straight, uniformly charged wire has a linear charge density 2. The wire passes through a nonconducting sphere of radius r = 1.95 m whose center is at a distance d' from the wire. When d = 1.15 m, the flux through the surface of the sphere is -7.65 x 10³ Nm²/C. What is the linear charge density of the wire? Note that the diagram is not to scale. The wire is infinitely longer than shown here. UC/m d
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Transcribed Image Text:A long, straight, uniformly charged wire has a linear charge density 2. The wire passes through a nonconducting sphere of
radius r = 1.95 m whose center is at a distance d from the wire. When d = 1.15 m, the flux through the surface of the
sphere is -7.65 x 105 N m²/C. What is the linear charge density of the wire? Note that the diagram is not to scale. The
wire is infinitely longer than shown here.
uc/m
d
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