q = 4 µC image: 1 image: 2 b 1) Now you place a hollow conducting sphere ( image: 1) Gaussian surface of radius r1. of inner radius a = 4.0 m and outer radius b = 16.0 m. Calculate the net enclosed charge by the 2) Now consider another hollow conducting sphere ( image: 2) Gaussian surface of radius r2 = 20.0 m and electric field at r2. of inner radius c= 24 m and outer radius d = 40 m. Calculate the net enclosed charge by the 3) Calculate the net flux through the Gaussian sphere of radius r2.

q = 4 µC image: 1 image: 2 b 1) Now you place a hollow conducting sphere ( image: 1) Gaussian surface of radius r1. of inner radius a = 4.0 m and outer radius b = 16.0 m. Calculate the net enclosed charge by the 2) Now consider another hollow conducting sphere ( image: 2) Gaussian surface of radius r2 = 20.0 m and electric field at r2. of inner radius c= 24 m and outer radius d = 40 m. Calculate the net enclosed charge by the 3) Calculate the net flux through the Gaussian sphere of radius r2.

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Question

q = 4 µC
image: 1
image: 2
b
1) Now you place a hollow conducting sphere ( image: 1)
Gaussian surface of radius r1.
of inner radius a = 4.0 m and outer radius b = 16.0 m. Calculate the net enclosed charge by the
2) Now consider another hollow conducting sphere ( image: 2)
Gaussian surface of radius r2 = 20.0 m and electric field at r2.
of inner radius c= 24 m and outer radius d = 40 m. Calculate the net enclosed charge by the
3) Calculate the net flux through the Gaussian sphere of radius r2.

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