The expression of the charge distribution in spherical coordinates is a sphere with radius b given as pv = ko/r²[C/m³] (Volumetric charge density= Pv = ko/r²[C/m³]) %3D (a) Find the total charge inside the sphere. (b) Find the electric field inside and outside the sphere using the Gauss formula (c) Find the potential function inside and outside the sphere. (d) Show that the equation div D = pv is satisfied by computing div D inside and outside the sphere.

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please only solve c) and d)

4. The expression of the charge distribution in spherical
coordinates is a sphere with radius b given as po
ko/r² [C/m³]
(Volumetric charge density= P, = ko/r2 [C/m³] )
(a) Find the total charge inside the sphere.
(b) Find the electric field inside and outside the sphere using the Gauss formula
(c) Find the potential function inside and outside the sphere.
(d) Show that the equation div D = p, is satisfied by computing div D inside and
outside the sphere.
Transcribed Image Text:4. The expression of the charge distribution in spherical coordinates is a sphere with radius b given as po ko/r² [C/m³] (Volumetric charge density= P, = ko/r2 [C/m³] ) (a) Find the total charge inside the sphere. (b) Find the electric field inside and outside the sphere using the Gauss formula (c) Find the potential function inside and outside the sphere. (d) Show that the equation div D = p, is satisfied by computing div D inside and outside the sphere.
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