In the figure shown, the inner sphere carries a charge of Q1--14.83nC and the outer spherical shell carries a charge of Q2-17.87nC. Both shells are concentric and non- conducting with uniform charge distributions. The radii of the the shells are: a1-6.95cm, b1= 16.05cm, a2-39.14cm and b2=73.14cm. Determine the magnitude of the electric field a a distance r=44.62cm from the center of the sphere (in N/C).
In the figure shown, the inner sphere carries a charge of Q1--14.83nC and the outer spherical shell carries a charge of Q2-17.87nC. Both shells are concentric and non- conducting with uniform charge distributions. The radii of the the shells are: a1-6.95cm, b1= 16.05cm, a2-39.14cm and b2=73.14cm. Determine the magnitude of the electric field a a distance r=44.62cm from the center of the sphere (in N/C).
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11th Edition
ISBN:9781305952300
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In the figure shown, the inner sphere carries a charge of Q1=-14.83nC and the outer spherical shell carries a charge of Q2=17.87nC. Both shells are concentric and nonconducting with uniform charge distributions. The radii of the the shells are: a1=6.95cm, b1= 16.05cm, a2=39.14cm and b2=73.14cm.
Determine the magnitude of the electric field a a distance r=44.62cm from the center of the sphere (in N/C).
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In the figure shown, the inner sphere carries a charge of Q1=-14.83nC and the outer
spherical shell carries a charge of Q2-17.87nC. Both shells are concentric and non-
conducting with uniform charge distributions. The radii of the the shells are:
a1-6.95cm, b1= 16.05cm, a2-39.14cm and b2=73.14cm.
Determine the magnitude of the electric field a a distance r=44.62cm from the
center of the sphere (in N/C).
669.64
a₁
b₁
b₂
599.1475 margin of error +/- 1%
a2
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