1.5V battery0.4 TTwo frictionless conductor rails 0.2m apart are connected toThe rails are placed in magnetic field B with magnetude ofcon slide friction lesslyPerpendicular to its plane. A conductor rodalong and perpendiculara still stateto the rails. The rod starts its motionfroma) In which direction does the rod move?b) what is the direction of the induction electromotive force?c) The resistance of the total closed circuit is given as 0.35 whenthe speed of the rod is12 m/s. Calculate the intersity of theCurrent passing through it.1.5V0.30 0 0 0100 000000000OOa0.2m

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0.4 T Two frictionless conductor rails 0.2m aport are connected to 1.5V battery. The rails are placed in magnetic field B with a magnetude of con slide friction lessly Perpendicular to its plane. A conductor rod along and perpendicular to the rails. The rod starts its motion from a still state a) In which direction does the rod move? b) what is the direction of the induction electromotive force? c) The resistance of the total closed circuit is given as 0.3 when the speed of the rod is 12 m/s. Calculate the intersity of the Current passing through it. 1.5V 0.352 0.2m

0.4 T Two frictionless conductor rails 0.2m aport are connected to 1.5V battery. The rails are placed in magnetic field B with a magnetude of con slide friction lessly Perpendicular to its plane. A conductor rod along and perpendicular to the rails. The rod starts its motion from a still state a) In which direction does the rod move? b) what is the direction of the induction electromotive force? c) The resistance of the total closed circuit is given as 0.3 when the speed of the rod is 12 m/s. Calculate the intersity of the Current passing through it. 1.5V 0.352 0.2m

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter23: Faraday’s Law And Inductance

Section23.1: Faraday’s Law Of Induction

Problem 23.1QQ: A circular loop of wire is held in a uniform magnetic field, with the plane of the loop...

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