You are working on a design for an electromagnetic compass. A single circular loop of wire with an area of A-1.6 mm2 is fixed to the face of the compass, and initially lies in a horizontal plane. While active, your circuit is designed to have a counter-clockwise direct current of /- 4.7 µA running through the loop, as seen from above. The compass is in a gimbal which allows the loop to rotate along any axis. You are field testing your compass in an area where the earth's magnetic field has a strength of B 52 µT. W Towards which direction will the top of the compass (which is pointed out of the page) rotate when the current in the loop is on?

You are working on a design for an electromagnetic compass. A single circular loop of wire with an area of A-1.6 mm2 is fixed to the face of the compass, and initially lies in a horizontal plane. While active, your circuit is designed to have a counter-clockwise direct current of /- 4.7 µA running through the loop, as seen from above. The compass is in a gimbal which allows the loop to rotate along any axis. You are field testing your compass in an area where the earth's magnetic field has a strength of B 52 µT. W Towards which direction will the top of the compass (which is pointed out of the page) rotate when the current in the loop is on?

Electric Motor Control

10th Edition

ISBN:9781133702818

Author:Herman

Publisher:Herman

Chapter4: Symbols

Section: Chapter Questions

Problem 5SQ: The symbol shown is a a. polarized capacitor. b. normally closed switch. c. normally open held...

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