Prob.6 An insulating solid sphere of radius R = 6.0cm has a total positive charge Quniformlydistributed throughout its volume. The electric flux through a spherical Gaussian surface ofradius r = 3.0cm is 2.26x10°N.m2/C.RGaússian surface[a] How much charge (in units of uC) is enclosed by the Gaussian surface of radius r =3.0cm?(Example: if your answer is 3.4x10°C = 3.4 µC, enter your answer as 3.4 in the answerbox).

Given, Total charge of sphere =QR=6cmFlux through gaussian surface ϕ of r=3cm =2.26×105N.m2/C

Prob.6 An insulating solid sphere of radius R = 6.0cm has a total positive charge Q uniformly distributed throughout its volume. The electric flux through a spherical Gaussian surface of radius r = 3.0cm is 2.26×105N.m2/c. Q Gaússian surface [a] How much charge (in units of uC) is enclosed by the Gaussian surface of radius r =3.0cm? (Example: if your answer is 3.4x10-°C = 3.4 µC, enter your answer as 3.4 in the answer box). %3D

Prob.6 An insulating solid sphere of radius R = 6.0cm has a total positive charge Q uniformly distributed throughout its volume. The electric flux through a spherical Gaussian surface of radius r = 3.0cm is 2.26×105N.m2/c. Q Gaússian surface [a] How much charge (in units of uC) is enclosed by the Gaussian surface of radius r =3.0cm? (Example: if your answer is 3.4x10-°C = 3.4 µC, enter your answer as 3.4 in the answer box). %3D

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Question

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 a spherical Gaussian surface of
radius r = 3.0cm is 2.26x10°N.m2/C.
R
Gaússian surface
[a] How much charge (in units of uC) is enclosed by the Gaussian surface of radius r =3.0cm?
(Example: if your answer is 3.4x10°C = 3.4 µC, enter your answer as 3.4 in the answer
box).

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