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?
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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