A charged particle is suspended at the center of two thin concentric spherical charged shells, made of nonconducting material. Figure shows cross section of the arrangement. Figure (b) gives the net flux `phi` through a Gaussian sphere centered on the particle, as a function of the radius r of the sphere.
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What is the charge on the central particle?

A charged particle is suspended at the centre of two thin concentric spherical charged shells, made of non conducting material. Figure A shows cross section of the arrangement. Figure B gives the net flux phi through a Gaussian sphere centered on the particle, as a function of the radius r of the sphere. What is the charge on the central particle ?

A charged particle is suspended at the centre of two thin concentric spherical charged shells, made of non conducting material. Figure A shows cross section of the arrangement. Figure B gives the net flux phi through a Gaussian sphere centered on the particle, as a function of the radius r of the sphere. What is the charge on shell A ?

A charged particle is suspended at the centre of two thin concentric spherical charged shells, made of non conducting material. Figure A shows cross section of the arrangement. Figure B gives the net flux phi through a Gaussian sphere centered on the particle, as a function of the radius r of the sphere. In which range of the values of r is the electric field zero ?

Flux passing through the shaded surface of a sphere when a point charge q is placed at the center is (radius of the sphere is R)

A non-conducting spherical shell of radius R surrounds a point charge q (q at center). The electric flux through a cap of the shell of half angle theta is:

An infinite, uniformly charged sheet with surface charge density sigma cuts through a spherical Gaussian surfance of radius R at a distance X from its center, as shown in the figure. The electric flux Phi through the Gaussian surfce is .