The figure below shows a solid conducting sphere with radius R = 7.00 cm. Upon inspection, the electric field at a distance r = 9.00 cm from the center of the conducting sphere is +250. kN/C. What is the surface charge density of the conducting sphere? (co 8.854 x 10-12 C?/N-m2) -R-> +3.66 m2 nC +3.66 m2 nC +1.34 m2 +1.34 m2 O none of the given choices O.

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The figure below shows a solid conducting sphere with radius R = 7.00 cm. Upon inspection, the
electric field at a distance r = 9.00 cm from the center of the conducting sphere is +250. kN/C.
What is the surface charge density of the conducting sphere? (eno = 8.854 x 10-12 C²/N-m2)
-R-
+3.66 HC
m2
nC
+3.66
m2
nC
+1.34
+1.34
m2
O none of the given choices
Transcribed Image Text:The figure below shows a solid conducting sphere with radius R = 7.00 cm. Upon inspection, the electric field at a distance r = 9.00 cm from the center of the conducting sphere is +250. kN/C. What is the surface charge density of the conducting sphere? (eno = 8.854 x 10-12 C²/N-m2) -R- +3.66 HC m2 nC +3.66 m2 nC +1.34 +1.34 m2 O none of the given choices
The figure below shows two oppositely charged conducting plates with an equal magnitude of
surface charge densities +o and -o. At point r below the surface of the conducting plate with
surface charge density -
-o, the electric field
to
+,
+ +
r
O points downward, away from the surface of the conducting plate with surface charge density -o.
ONone of the given choices
O points upward, toward the surface of the conducting plate with surface charge density -o.
O points to the right, parallel to the surface of the conducting plate with surface charge density -o.
D is equal to zero.
Transcribed Image Text:The figure below shows two oppositely charged conducting plates with an equal magnitude of surface charge densities +o and -o. At point r below the surface of the conducting plate with surface charge density - -o, the electric field to +, + + r O points downward, away from the surface of the conducting plate with surface charge density -o. ONone of the given choices O points upward, toward the surface of the conducting plate with surface charge density -o. O points to the right, parallel to the surface of the conducting plate with surface charge density -o. D is equal to zero.
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