(1) There is a charge, q = 3.11mm. There is also a blue hemisphere of radius R2 point of the green hemisphere (making the charge also at the center of the blue hemisphere). There is a flat red surface which is the shape of a flat donut connecting the two hemispheres making the entire surface a closed surface. -5.66nC at the center of a green hemisphere of radius R1 5.43cm which is centered at the same a) What is the total flux through the entire surface? b) What is the net flux through the blue surface c) What is the net flux through the green surface? R2
(1) There is a charge, q = 3.11mm. There is also a blue hemisphere of radius R2 point of the green hemisphere (making the charge also at the center of the blue hemisphere). There is a flat red surface which is the shape of a flat donut connecting the two hemispheres making the entire surface a closed surface. -5.66nC at the center of a green hemisphere of radius R1 5.43cm which is centered at the same a) What is the total flux through the entire surface? b) What is the net flux through the blue surface c) What is the net flux through the green surface? R2
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Transcribed Image Text:(1) There is a charge, q = -5.66nC at the center of a green hemisphere of radius R1
3.11mm. There is also a blue hemisphere of radius R2 = 5.43cm which is centered at the same
point of the green hemisphere (making the charge also at the center of the blue hemisphere).
There is a flat red surface which is the shape of a flat donut connecting the two hemispheres
making the entire surface a closed surface.
a) What is the total flux through the entire surface?
b) What is the net flux through the blue surface
c) What is the net flux through the green surface?
R2
R1
(b) Exploded view of the sur-
face.
(a) Full Surface.
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