The figure below shows a cross-sectional view of two long, straight, parallel wires that are perpendicular to the xy plane, each conducting a current I but in opposite directions. a) Determine the magnitude and direction of the total magnetic field b at points P, , P, and P3 , due to the two current wires (Note that B = B, + B, , where B, and B, represent the magnetic fields generated by wires 1 and 2, respectively). b) Find the magnitude and direction of B at any point on the x-axis to the right of wire 2 in terms of the X- coordinate of the point.
The figure below shows a cross-sectional view of two long, straight, parallel wires that are perpendicular to the xy plane, each conducting a current I but in opposite directions. a) Determine the magnitude and direction of the total magnetic field b at points P, , P, and P3 , due to the two current wires (Note that B = B, + B, , where B, and B, represent the magnetic fields generated by wires 1 and 2, respectively). b) Find the magnitude and direction of B at any point on the x-axis to the right of wire 2 in terms of the X- coordinate of the point.
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Transcribed Image Text:The figure below shows a cross-sectional view of two
long, straight, parallel wires that are perpendicular to
the xy plane, each conducting a current I but in
opposite directions.
a) Determine the magnitude and direction of the total
magnetic field B at points P, , P, and P3 , due to
the two current wires (Note that B
where B, and B, represent the magnetic fields
generated by wires 1 and 2, respectively).
В, + B2
b) Find the magnitude and direction of B at any point
on the x-axis to the right of wire 2 in terms of the
X- coordinate of the point.

Transcribed Image Text:y
wire 1
wire 2
P1
®,
P2
Kd*-d
B
3d-
– 2d
a)
b)
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