Why is electric potential inside a sphere not zero?

Why is electric potential inside a sphere not zero?

Since all the charge is distributed on the surface of the spherical shell so according to Gauss law there will not be any electric flux inside the spherical shell, because the charge enclosed by the spherical shell is zero, so there will not be any electric field present inside the spherical shell.

Why electric field inside a hollow conducting sphere is zero?

Inside the hollow conducting sphere, the electric field is zero. Since charge enclosed within the gaussian surface is zero. So, E inside the gaussian surface is also zero.

Is the potential inside a hollow sphere zero?

As we know that the electric field intensity inside the hollow spherical charged conductor is zero. Hence, the work done in moving a point charge inside the hollow spherical conductor is also zero. This implies that the potential difference between any two points inside or on the surface of the conductor is zero.

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What is the potential inside a hollow sphere?

Yes the charge always reside on the surface hence inside no charge present thus potential is zero. The electric field inside a hollow metallic sphere is zero. so the work done is also zero. Hence thepotential is the same inside as on the surface.

Which of the following is zero inside a charge conducting sphere?

electric field
The electric field is zero inside a conducting sphere.

Is hollow sphere a conducting?

Conducting Hollow Sphere: Metallic sphere which are conducting i.e current is flowing through the sphere surface. Charged Hollow sphere: Metallic hollow Sphere which contains static charge on the surface of the Sphere i.e it’s not conducting Current.

What is electric potential inside a hollow sphere?

According to Gauss’s Law, since there is no charge inside of an hollow object, the electric field inside would be zero, even if it were an insulator. Therefore, the potential difference would be zero.

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What is the electric field inside a hollow sphere?

According to Gaussian’s law the electric field inside a charged hollow sphere is Zero. This is because the charges resides on the surface of a charged sphere and not inside it and thus the charge enclosed by the guassian surface is Zero and hence the electric field is also Zero. Hope it’s clear.

Where is an electric field zero?

There is a spot along the line connecting the charges, just to the “far” side of the positive charge (on the side away from the negative charge) where the electric field is zero. In general, the zero field point for opposite sign charges will be on the “outside” of the smaller magnitude charge.

Why is the electric field zero at the center of a sphere?

If you have a conducting hollow sphere with a uniform charge on its surface, then will the electric field at every point inside the shell be 0. The reason the electric field is 0 at the center is clear from the symmetry of the sphere, but for a point at a certain distance from the center, shouldn’t a net electric field exist?

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What is the net charge of a solid sphere?

Thus, the net charge inside a conductor Σq = 0. Thus , if +q charge is given to a solid sphere, it will be distributed equally throughout the surface of the sphere . There will be no charge inside the sphere. So the electric fields will be the same as the hollow sphere.

What is the charge on a conducting hollow sphere?

The conducting hollow sphere is positively charged with +q coulomb charges. If the sphere has equal density all over its surface , then +q charge will be equally distributed all over the surface.

Is there any contribution to potential inside the charge sphere?

Back to the sphere, inside in any point all vector contribution from the shell is zero, outside of the charge sphere all is like a charged particle. The conclusion, there is no contribution to potential inside the sphere cause E=0 this imply that potential is constant and equal to potential on the shell.

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