Consider a circular region of radius R = 6.00 cm in which there is an electric flux directed out of the page. (Outside of this region there is no flux.) The flux in this region varies with both timeand location. Specifically, for rsR, the flux encircled by a concentric circle of radius r is given by PE enc = (0.600 V m/s)(r/R)t, where t is the time in seconds.a) Find the magnitude of the induced magnetic field at a radial distance of r = 2.00 cm from the center of the region.B(r = 2.00 cm) =THelpEnterb) Find the magnitude of the induced magnetic field at a radial distance of r = 10.00 cm from the center of the region.B(r = 10.00 cm) -THelpEnter

Answered: Image /qna-images/answer/7eac92fd-a6b5-43ea-83fa-e1b0422d8dbe.jpg

Consider a circular region of radius R = 6.00 cm in which there is an electric flux directed out of the page. (Outside of this region there is no flux.) The flux in this region varies with both time and location. Specifically, for r

Consider a circular region of radius R = 6.00 cm in which there is an electric flux directed out of the page. (Outside of this region there is no flux.) The flux in this region varies with both time and location. Specifically, for r

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Question

Consider a circular region of radius R = 6.00 cm in which there is an electric flux directed out of the page. (Outside of this region there is no flux.) The flux in this region varies with both time
and location. Specifically, for rsR, the flux encircled by a concentric circle of radius r is given by PE enc = (0.600 V m/s)(r/R)t, where t is the time in seconds.
a) Find the magnitude of the induced magnetic field at a radial distance of r = 2.00 cm from the center of the region.
B(r = 2.00 cm) =
T
Help
Enter
b) Find the magnitude of the induced magnetic field at a radial distance of r = 10.00 cm from the center of the region.
B(r = 10.00 cm) -
T
Help
Enter

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