You asked: At what point of uniformly charged spherical shell is the electric field intensity maximum?

At which point intensity of electric field is maximum due to spherical shell?

Electric intensity at any point on the surface of the shell is maximum. 4. Outside the shell, E varies inversely as the square of distance from the centre.

What is the electric field intensity at the centre of a uniformly charged spherical shell?

Since the charge q is distributed on the surface of the spherical shell, there will be no charge enclosed by the spherical Gaussian surface i.e. = 0. Hence, there is no electric field inside a uniformly charged spherical shell.

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What is the electric intensity at a point on the surface of a charged spherical conductor?

Electric intensity at any point inside a charged conductor is zero. Hence electric intensity at the centre of the sphere is zero.

What is uniformly charged spherical shell?

Let, a thin spherical shell of radius R having a positive charge q is uniformly distributed on the surface. … The charge enclosed inside the spherical shell is 0. So,E=0. Therefore, due to the electric field, the uniformly charged spherical shell is zero at all points inside the shell.

Where is the electric field intensity due to charged sphere maximum?

Here, as the charge is uniformly distributed in the sphere, we will consider s as an area of the sphere which is, s=4πr2 and r is radius of the gaussian surface shown in the figure above. From this, it can be seen that at point P the electric field intensity is maximum.

How does electric potential vary from point to point due to a thin charged spherical shell?

For all the points lie inside the thin charged spherical shell, the gaussian surface through the point will not enclose any charge and hence there won’t be any Electric Field but Electric potential exists and is same everywhere and is equal to that at a point on its surface which can be given as.

How does electric potential vary from point to point inside a thin charged spherical shell?

Inside the sphere, the field is zero, therefore, no work needs to be done to move the charge inside the sphere and, therefore, the potential there does not change.

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Why is electric field inside a uniformly charged spherical shell zero?

It follows that: The electric field immediately above the surface of a conductor is directed normal to that surface. … Now, the gaussian surface encloses no charge, since all of the charge lies on the shell, so it follows from Gauss’ law, and symmetry, that the electric field inside the shell is zero.

What will be the electric field intensity at the centre of a uniformly charged?

The electric field intensity at the centre of a uniformly charged hemispherical shell is E0.

What is the value of electric field intensity at the centre of a uniformly charged ring?

The value of electric field intensity at the centre of uniform charged ring will be zero.

What is the value of electric field intensity inside a uniformly charged hollow sphere?

The intensity of the electric field inside a uniformly charged hollow sphere will be zero and also, we can say that outside the sphere, we can suppose that the sphere will be a point charge present at center and can be calculated by the electric field.

What is the value of electric field at any point inside a charged spherical shell?

we know that electric field of an ideal spherical shell with uniformly distributed charge is zero inside the shell and equal to EF of a point charge on its center. when we calculate the EF for a point on the surface of shell,it is equal to half of EF of same point charge EF.

What is the electric field inside a uniformly charged thin spherical shell of radius 20 cm?

Given: The electric potential inside a uniformly charged thin spherical shell of radius 20 cm is 10 V.

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