A 50 cm radius spherical insulator has a total charge of 3.82 x 10° C that is uniformly distributed throughout the sphere. Calculate A) the volume charge density within the sphere and B) the charge contained within the spherical region from r = 0 to r= ¾ R.

A 50 cm radius spherical insulator has a total charge of 3.82 x 10° C that is uniformly distributed throughout the sphere. Calculate A) the volume charge density within the sphere and B) the charge contained within the spherical region from r = 0 to r= ¾ R.

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Question

14.) see photo

A 50 cm radius spherical insulator has a total charge of 3.82 x 106 C that is uniformly distributed throughout the
sphere. Calculate A) the volume charge density within the sphere and B) the charge contained within the
spherical region from r = 0 to r = 34 R.

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