The circular region with radius ?=6.35 cmR=6.35 cm shown in the figure has an electric field directed upwards and perpendicular to the region. The amount of electric flux ΦEΦE through a circle with radius ?r from the center of the region is given by the expression ΦE(?)=(2.65 V)?ΦE(r)=(2.65 V)r What is the magnitude ?B of the induced magnetic field at a distance ?=5.45 cmr=5.45 cm from the center of the circular region?
The circular region with radius ?=6.35 cmR=6.35 cm shown in the figure has an electric field directed upwards and perpendicular to the region. The amount of electric flux ΦEΦE through a circle with radius ?r from the center of the region is given by the expression ΦE(?)=(2.65 V)?ΦE(r)=(2.65 V)r What is the magnitude ?B of the induced magnetic field at a distance ?=5.45 cmr=5.45 cm from the center of the circular region?
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The circular region with radius ?=6.35 cmR=6.35 cm shown in the figure has an electric field directed upwards and perpendicular to the region. The amount of electric flux ΦEΦE through a circle with radius ?r from the center of the region is given by the expression
ΦE(?)=(2.65 V)?ΦE(r)=(2.65 V)r
What is the magnitude ?B of the induced magnetic field at a distance ?=5.45 cmr=5.45 cm from the center of the circular region?
Transcribed Image Text:The circular region with radius R = 6.35 cm shown in the
figure has an electric field directed upwards and
perpendicular to the region. The amount of electric flux DE
through a circle with radius r from the center of the region is
given by the expression
R
PE (r) = (2.65 V) r
What is the magnitude B of the induced magnetic field at a
distance r = 5.45 cm from the center of the circular region?
B =
T
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