A small compass is held horizontally, the center of its needle a distance of 0.460 m directly north of a long wire that is perpendicular to the earth's surface. When there is no current in the wire, the compass needle points due north, which is the direction of the horizontal component of the earth's magnetic field at that location. This component is parallel to the earth's surface. When the current in the wire is 19.0 A, the needle points 11.0° east of north. (a) What direction does the current in the wire flow, toward or away from the earth's surface? (b) What is the magnitude of the horizontal component of the earth's magnetic field at the location of the compass?

asked by Anonymous

12 years ago

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1 answer

The field of the wire has a magnitude B(wire) = µ₀•I/(2πd) = …

B(wire)/B(hor) = tan11⁰ ==>
B(hor) = B(wire)/ tan11⁰ =

answered by Elena

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Question

A small compass is held horizontally, the center of its needle a distance of 0.460 m directly north of a long wire that is perpendicular to the earth's surface. When there is no current in the wire, the compass needle points due north, which is the direction of the horizontal component of the earth's magnetic field at that location. This component is parallel to the earth's surface. When the current in the wire is 19.0 A, the needle points 11.0° east of north. (a) What direction does the current in the wire flow, toward or away from the earth's surface? (b) What is the magnitude of the horizontal component of the earth's magnetic field at the location of the compass?

1 answer

The field of the wire has a magnitude B(wire) = µ₀•I/(2πd) = …

B(wire)/B(hor) = tan11⁰ ==>
B(hor) = B(wire)/ tan11⁰ =

Elena · Answer

The field of the wire has a magnitude B(wire) = µ₀•I/(2πd) = … B(wire)/B(hor) = tan11⁰ ==> B(hor) = B(wire)/ tan11⁰ =