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Through a current loop with a radius of 1.5 cm, the magnetic flux density decreases from 85 mT to 15 mT in the time 50
Through a current loop with a radius of 1.5 cm, the magnetic flux density decreases from 85 mT to 15 mT in the time 50 ms. The magnetic field is directed from the lock perpendicular to the plane of the paper. The current loop has a resistance of 0.14. As a result of the change in the magnetic flux density, a current is induced in the loop. How big will the current be and in what direction?
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To determine the induced current in the loop and its direction due to the change in magnetic flux density we can use Faradays Law of Electromagnetic I...
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Step: 3
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Physics by Example
Authors: W. G. Rees
1st edition
521449758, 521445140, 9780521449755, 978-0521445146
