For spherical symmetrical charge distrib...

For spherical symmetrical charge distribution, variation of electric potential with distance from centre is given in figure below : `V = (q)/(4 pi epsi_(0)R_(0))` for `r le R_(0)` and `V = (q)/(4 pi epsi_(0) r)` for ` r ge R_(0)`. The which option(s) are correct ?

Total charge within `2R_(0)` is q

Total electrostatic energy for `r le R_(0)` is zero

At `r=R_(0)` electric field is discontinuous

There will be no charge anywhere except at `r=R_(0)`

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The correct Answer is:

A, B, C, D

The given graph is of charged conducting sphere of radius `R_(0)`. The whole charge q distributs on the surface of the sphere.

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For spherical symmetrical charge distribution, variation of electric potential with distance from centre is given in diagram Given that : V=(q)/(4pi epsilon_(0)R_(0)) for r le R_(0) and V=(q)/(4 piepsilon_(0)r) for r ge R_(0) Then which option (s) are correct : (1) Total charge within 2R_(0) is q (2) Total electrosstatic energy for r le R_(0) is non-zero (3) At r = R_(0) electric field is discontinuous (4) There will be no charge anywhere except at r lt R_(0)

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