A closed loop carrying a constant current is in a uniform magnetic field given by B =î – 2ĵ +k (T) (Figure 4). y M Ignoring the magnetic field exerted by the loop, find a) the magnetic force vector on MN part of the loop. b) the components of the magnetic dipole moment of the loop. c) the torque acting on the loop and the magnetic potential energy of the loop. I a a Figure 4
A closed loop carrying a constant current is in a uniform magnetic field given by B =î – 2ĵ +k (T) (Figure 4). y M Ignoring the magnetic field exerted by the loop, find a) the magnetic force vector on MN part of the loop. b) the components of the magnetic dipole moment of the loop. c) the torque acting on the loop and the magnetic potential energy of the loop. I a a Figure 4
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Transcribed Image Text:A closed loop carrying a constant current is in a uniform
magnetic field given by B= î – 2 j+k_ (T) (Figure 4).
y
M
Ignoring the magnetic field exerted by the loop, find
a) the magnetic force vector on MN part of the loop.
b) the components of the magnetic dipole moment of the
loop.
c) the torque acting on the loop and the magnetic
potential energy of the loop.
I
a
Figure 4
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