The electric potential inside a nonconducting sphere is constant and the same at all points within the sphere.
The electric potential inside a uniformly charged sphere is constant and the same at all points within the sphere.
The electric potential at the center of a sphere is zero.
Inside a hollow charged sphere, the electric potential is constant and zero throughout the interior of the sphere. This is because the electric field due to the charges on the outer surface cancels out within the hollow region, resulting in no work done on a test charge to move it within the hollow sphere.
The electric potential outside a conducting sphere is the same as the potential at its surface.
The distribution of the electric field inside a sphere is uniform, meaning it is the same at all points inside the sphere.
The electric potential inside a uniformly charged sphere is constant and the same at all points within the sphere.
The electric potential at the center of a sphere is zero.
Inside a hollow charged sphere, the electric potential is constant and zero throughout the interior of the sphere. This is because the electric field due to the charges on the outer surface cancels out within the hollow region, resulting in no work done on a test charge to move it within the hollow sphere.
The electric potential outside a conducting sphere is the same as the potential at its surface.
The distribution of the electric field inside a sphere is uniform, meaning it is the same at all points inside the sphere.
The electric field inside a charged sphere is uniform and directed radially towards the center of the sphere.
The electric field inside a uniformly charged sphere is zero.
electric field inside the conducting sphere is ZER0..! because their are equivalent charges all around the sphere which makes the net force zero hence we can say that the electric field is also zero.!
The electric field inside a sphere of uniform charge density is zero.
If the net charge enclosed by a surface is zero then the field at all points on the surface is not zero because gauss's law states that if the charge enclosed by a surface is zero then the flux through the surface is zero which depends upon the magnitude of field and the angle that it makes with the area vector at each point and so it is not necessary that the field will be zero at all points of the surface.
Zero, because the electric field inside a charged hollow sphere is zero. This is due to the Gauss's law and symmetry of the charged hollow sphere, which results in no net electric field inside the sphere.
The electric field inside a cavity within a uniformly charged sphere is zero.