[b] What is the magnitude ( in units of 10°N/C) of the 2-field at the Gaussian surface of part [a]? (Example: If your answer is 3.4x10°N/C, enter 3.4 in the answer box).
[b] What is the magnitude ( in units of 10°N/C) of the 2-field at the Gaussian surface of part [a]? (Example: If your answer is 3.4x10°N/C, enter 3.4 in the answer box).
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![Prob.6 An insulating solid sphere of radius R = 6.0cm has a total positive charge Quniformly
distributed throughout its volume. The electric flux through the spherical Gaussian surface of
radius r = 3.0cm is 2.26x10°N.m²c.
Gaússian surface
[b] What is the magnitude ( in units of 10°N/C) of the 2-field at the Gaussian surface of
[a]? (Examp
If your answer is 3.4×10°N/C, enter 3.4 in the answer box).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F474861d3-aaf1-4b4c-afe2-e250091335e4%2F5b43f313-89b0-443c-89e1-f88162ebca2f%2F7l04dh5_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Prob.6 An insulating solid sphere of radius R = 6.0cm has a total positive charge Quniformly
distributed throughout its volume. The electric flux through the spherical Gaussian surface of
radius r = 3.0cm is 2.26x10°N.m²c.
Gaússian surface
[b] What is the magnitude ( in units of 10°N/C) of the 2-field at the Gaussian surface of
[a]? (Examp
If your answer is 3.4×10°N/C, enter 3.4 in the answer box).
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