Consider an extremely long solenoid with 1240 turn/m and a radius of 0.3 m that is run- ning parallel to the the z-axis with its center at 2.4 mi+3.1 mj. If 132.9 A of conventional current is flowing counter-clockwise in the ry-plane, what must be the magnetic field at: a) 2.5 må + 3.2 mj? b) 2.2 må + 2.6 mj?
Consider an extremely long solenoid with 1240 turn/m and a radius of 0.3 m that is run- ning parallel to the the z-axis with its center at 2.4 mi+3.1 mj. If 132.9 A of conventional current is flowing counter-clockwise in the ry-plane, what must be the magnetic field at: a) 2.5 må + 3.2 mj? b) 2.2 må + 2.6 mj?
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![Consider an extremely long solenoid with 1240 turn/m and a radius of 0.3 m that is run-
ning parallel to the the z-axis with its center at 2.4mi+3.1 mj. If 132.9 A of conventional
current is flowing counter-clockwise in the xy-plane, what must be the magnetic field at:
a) 2.5 må + 3.2 mj?
b) 2.2 må + 2.6 mj?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F98e85694-6f12-4ea2-88a2-4efabc3eee42%2F318b9543-ed89-44fc-8483-b088eea7bd00%2Fwcht6ep_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider an extremely long solenoid with 1240 turn/m and a radius of 0.3 m that is run-
ning parallel to the the z-axis with its center at 2.4mi+3.1 mj. If 132.9 A of conventional
current is flowing counter-clockwise in the xy-plane, what must be the magnetic field at:
a) 2.5 må + 3.2 mj?
b) 2.2 må + 2.6 mj?
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