As shown in the figure, a rectangular loop with a length e of 16.4 cm and a width w of 14.8 cm has 26 turns and carries a current of 2.53 A counterclockwise around the loop when viewed from the positive x-axis. A horizontal (parallel to the x-z plane) magnetic field of magnitude 0.044 Tis oriented at an angle of 65° relative to the perpendicular to the loop (the positive x-axis). (Assume the length and width are measured along the z and y-axes, respectively.) plane Calculate the torque generated by the magnetic field on the loop.
As shown in the figure, a rectangular loop with a length e of 16.4 cm and a width w of 14.8 cm has 26 turns and carries a current of 2.53 A counterclockwise around the loop when viewed from the positive x-axis. A horizontal (parallel to the x-z plane) magnetic field of magnitude 0.044 Tis oriented at an angle of 65° relative to the perpendicular to the loop (the positive x-axis). (Assume the length and width are measured along the z and y-axes, respectively.) plane Calculate the torque generated by the magnetic field on the loop.
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B6
Transcribed Image Text:As shown in the figure, a rectangular loop
with a length e of 16.4 cm and a width w of
14.8 cm has 26 turns and carries a current of
2.53 A counterclockwise around the loop
when viewed from the positive x-axis. A
horizontal (parallel to the x-z plane) magnetic
field of magnitude 0.044 Tis oriented at an
angle of 65° relative to the perpendicular to
the loop (the positive x-axis). (Assume the
length and width are measured along the z
and y-axes, respectively.)
plane
Calculate the torque generated by the
magnetic field on the loop.
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