1. A constant current I= 4 A flows through a triangular loop of conducting wire located in the xy plane, such that it's magnetic dipole moment points in the 2-direction. The three points defining this triangle are (-2, 0), (2,0) and (0,5), where all dimensions are in centimeters. If this current-carrying triangular loop is located in a region of uniform magnetic field B = (5x + 3ỹ) mT, find the forces acting on each segment of the loop, the total force acting on the loop and the torque acting on the loop.
1. A constant current I= 4 A flows through a triangular loop of conducting wire located in the xy plane, such that it's magnetic dipole moment points in the 2-direction. The three points defining this triangle are (-2, 0), (2,0) and (0,5), where all dimensions are in centimeters. If this current-carrying triangular loop is located in a region of uniform magnetic field B = (5x + 3ỹ) mT, find the forces acting on each segment of the loop, the total force acting on the loop and the torque acting on the loop.
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Transcribed Image Text:1. A constant current I= 4 A flows through a triangular loop of conducting wire located in the xy plane, such that it's
magnetic dipole moment points in the 2-direction. The three points defining this triangle are (-2, 0), (2,0) and (0,5),
where all dimensions are in centimeters. If this current-carrying triangular loop is located in a region of uniform
magnetic field B = (5x + 3ỹ) mT, find the forces acting on each segment of the loop, the total force acting on the
loop and the torque acting on the loop.
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