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* てラメラでー -2 2 Find the force acting on the loop in an arbitrary uniform magnetic field; i.e. assume B = B,i+Byj+B,k for some arbitrary constants Bz, By and Bz.
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* てラメラでー -2 2 Find the force acting on the loop in an arbitrary uniform magnetic field; i.e. assume B = B,i+Byj+B,k for some arbitrary constants Bz, By and Bz.
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![The magnetic force acting on a straight wire carrying current I of length
L in a uniform magnetic field B is given by
F = IL × 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
Find the force acting on the loop in an arbitrary uniform magnetic
field; i.e. assume B = Bi+ Byj+B,k for some arbitrary constants
Вг, В, and B..](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1836ffed-240f-43fb-a21a-9fd95b250189%2F917dcee8-3675-4952-82e9-aa2a8587e3a0%2Fyo1wpnl_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 = IL × 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
Find the force acting on the loop in an arbitrary uniform magnetic
field; i.e. assume B = Bi+ Byj+B,k for some arbitrary constants
Вг, В, and B..
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