QUESTIONSCalculate the magnetic flux density at the following points:At a distance of 0.65 m from a long straight wire carrying 151) aA.At the center of a 350 turn circular coil of radius 0.24 m andcarrying a current of 3.6 A.b)Figure 1 shows a square coil of side 4.5 cm. A battery isconnected to the coil and produces a current of 6.8 A. Thecoil is placed in a uniform magnetic field of flux density 5.67mT as shown in Figure 1.A0oВCFigure 1Calculate the size and direction of the electromagnetic forcethat will act on side AB.Calculate the size and direction of the electromagnetic forcethat will act on side BC.Describe the motion of the frame immediately after thecurrent in the frame is switched on.c)The battery is removed from the coil and the coil is.nechanically rotated 90° clockwise. State the direction of theinduced current on side AB.North PoleSouth Pole

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Calculate the magnetic flux density at the following points: At a distance of 0.65 m from a long straight wire carrying 15 A. At the center of a 350 turn circular coil of radius 0.24 m and carrying a current of 3.6 A.

Calculate the magnetic flux density at the following points: At a distance of 0.65 m from a long straight wire carrying 15 A. At the center of a 350 turn circular coil of radius 0.24 m and carrying a current of 3.6 A.

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Ferromagnetism

Ferromagnetism is a mechanism by which some materials show magnetic properties. Iron and magnetite, an oxide of iron, are two naturally occurring materials that show the property of ferromagnetism. The word ferromagnetism is derived from the Latin name of iron, "Ferrum" as it was the first observed material to show such property. The property of ferromagnetism is shown by only a few substances such as iron, nickel, cobalt, and their alloys. Some transition metals and alloys of rare-earth metals also show ferromagnetism.

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