The magnetic force acting on a straight wire carrying current I of length L in a uniform magnetic field B is given by F = ILx B, where L has length L and is pointing in the direction of the current. Consider the loop centered at the origin shown in the figure below. y=4-x for -2ex42 -2 2 (c) The magnetic field is now not uniform and is given by B = B, (r*i - (2r + 2:)uî + 2°k), %3D
The magnetic force acting on a straight wire carrying current I of length L in a uniform magnetic field B is given by F = ILx B, where L has length L and is pointing in the direction of the current. Consider the loop centered at the origin shown in the figure below. y=4-x for -2ex42 -2 2 (c) The magnetic field is now not uniform and is given by B = B, (r*i - (2r + 2:)uî + 2°k), %3D
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where B0 is a constant vector with appropriate units.
![The magnetic force acting on a straight wire carrying current I of length
L in a uniform magnetic field B is given by
F = ILx B,
where L has length L and is pointing in the direction of the current.
Consider the loop centered at the origin shown in the figure below.
y= 4-x
for -24x42
-2
2
(c) The magnetic field is now not uniform and is given by
B = B, (x²i – (2r + 2z:)y} + 2°k),](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1836ffed-240f-43fb-a21a-9fd95b250189%2F8eace9f1-32fe-4b51-9531-3ba2f570bcaa%2Fzphfame_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The magnetic force acting on a straight wire carrying current I of length
L in a uniform magnetic field B is given by
F = ILx B,
where L has length L and is pointing in the direction of the current.
Consider the loop centered at the origin shown in the figure below.
y= 4-x
for -24x42
-2
2
(c) The magnetic field is now not uniform and is given by
B = B, (x²i – (2r + 2z:)y} + 2°k),
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