A charged conducting sphere with capacitance, C = 26.7 pF, produces an electric field that points radially outward. At a distance, d = 61.2 cm, from the center of the sphere, the strength of the electric field is E = 71.3 kV/m. (a) What is the radius of the charged sphere? R = m (b) Find the sphere's surface charge density. μC/m² J =
A charged conducting sphere with capacitance, C = 26.7 pF, produces an electric field that points radially outward. At a distance, d = 61.2 cm, from the center of the sphere, the strength of the electric field is E = 71.3 kV/m. (a) What is the radius of the charged sphere? R = m (b) Find the sphere's surface charge density. μC/m² J =
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![A charged conducting sphere with capacitance, C = 26.7 pF, produces an electric field that points radially outward.
At a distance, d = 61.2 cm, from the center of the sphere, the strength of the electric field is E = 71.3 kV/m.
(a) What is the radius of the charged sphere?
R =
m
(b) Find the sphere's surface charge density.
μC/m²
J =](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5aeaefbb-8161-4211-bb0a-b05d203dda3a%2Fcaa7cd9e-7a02-4627-86f3-56066a892ae8%2Fomp5dei_processed.png&w=3840&q=75)
Transcribed Image Text:A charged conducting sphere with capacitance, C = 26.7 pF, produces an electric field that points radially outward.
At a distance, d = 61.2 cm, from the center of the sphere, the strength of the electric field is E = 71.3 kV/m.
(a) What is the radius of the charged sphere?
R =
m
(b) Find the sphere's surface charge density.
μC/m²
J =
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