A circular conducting loop with radius 0.2 meters carries a current of 10 A and is oriented such that the current flow counter-clockwise in the x-y plane. A) Write the magnetic dipole moment vector in standard unit vector form. B) Calculate the vector torque on this loop caused by a uniform magnetic field given by B= 2i - 4j-8k [T].
A circular conducting loop with radius 0.2 meters carries a current of 10 A and is oriented such that the current flow counter-clockwise in the x-y plane. A) Write the magnetic dipole moment vector in standard unit vector form. B) Calculate the vector torque on this loop caused by a uniform magnetic field given by B= 2i - 4j-8k [T].
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![A circular conducting loop with radius 0.2 meters carries a current of 10 A and is oriented such that
the current flow counter-clockwise in the x-y plane. A) Write the magnetic dipole moment vector in
standard unit vector form. B) Calculate the vector torque on this loop caused by a uniform magnetic
field given by B = 2i - 4j - 8k [T].](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3738e16a-10fd-4378-b4a3-b8733d2d5bb5%2F9966b1fd-1062-4313-8e5d-e3e2b28f7f57%2Fxvzhmwk_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A circular conducting loop with radius 0.2 meters carries a current of 10 A and is oriented such that
the current flow counter-clockwise in the x-y plane. A) Write the magnetic dipole moment vector in
standard unit vector form. B) Calculate the vector torque on this loop caused by a uniform magnetic
field given by B = 2i - 4j - 8k [T].
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