How Does a Current-Carrying Wire Affect a Nearby Compass?

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A current-carrying wire oriented North-South generates a magnetic field that affects a nearby compass, causing a 12-degree deflection to the West. The horizontal component of the Earth's magnetic field at that location is approximately 2e-5 tesla. To determine the magnetic field at a point 2.7 cm East of the wire, one must first calculate the magnetic field produced by the wire alone. This calculation will allow for the determination of the current in the wire and the magnetic field at various distances. Understanding these interactions is crucial for applications in electromagnetism and navigation.
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A long current-carrying wire, oriented North-South, lies on a table (it is connected to batteries which are not shown).
A compass lies on top of the wire, with the compass needle about 3 mm above the wire. With the current running,
the compass deflects 12 degrees to the West. At this location, the horizontal component of the Earth's magnetic
field is about 2e-5 tesla.

What is the magnitude of the magnetic field at location A, on the table top, a distance 2.7 cm to the East of the wire, due only to the current in the wire?

Thanks!
 
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First find the magnetic field due to the wire alone in the first part... remember that the Earth's magnetic field is oriented north to south... and you are given the magnitude... and you're given the direction of the net magnetic field...

when you get that, you can get the current in the wire... and hence you can get the magnetic field any distance from the wire...
 
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