Dielectric Sphere in Uniform Field

In summary, the boundary condition for the potential outside a dielectric sphere in a uniform electric field is that as distance approaches zero, the potential must remain finite. This is because the Coulomb formula, which applies in this scenario, estimates the potential to be lower than the total charge divided by 4π times the distance between the charges, which approaches zero as distance increases. Therefore, the potential must also approach zero to remain finite.
  • #1
Apteronotus
202
0
Hi,

One of the boundary conditions when solving for the potential, [itex]\Phi[/itex], outside a dielectric sphere placed within a uniform electric field is
[itex]\lim_{r→0}\Phi(r,θ)<\infty[/itex]

Can anyone explain/prove why this so.

Thanks,
 
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  • #2
If the charges are contained in some finite volume ##V##, then the Coulomb formula applies:

$$
\Phi(\mathbf x) = \int_V \frac{\rho(\mathbf r)}{4\pi |\mathbf x-\mathbf r|}\,d^3\mathbf r.
$$

If total charge in the volume ##V## is finite, the integral can be estimated by (is lower than) ##Q/(4\pi |\mathbf x-\mathbf r|)## for some ##Q##. As the latter expression falls off to zero as distance increases, so does the potential.
 
  • #3
Thank you Jano!
 

1. What is a dielectric sphere in a uniform field?

A dielectric sphere in a uniform field refers to a spherical object made of an insulating material, also known as a dielectric, that is placed in a uniform electric field. This electric field can be created by two oppositely charged plates or by a point charge.

2. How does a dielectric sphere behave in a uniform field?

A dielectric sphere in a uniform field will experience a force and torque due to the electric field. This will cause the sphere to align itself along the direction of the electric field. The electric field inside the sphere will also be affected, resulting in a net decrease in the electric field strength.

3. What is the polarization of a dielectric sphere in a uniform field?

Polarization refers to the alignment of electric dipoles within a dielectric material in response to an external electric field. In the case of a dielectric sphere in a uniform field, the polarization will occur in the direction of the electric field, causing the dipoles to align themselves with the field.

4. How does the dielectric constant affect the behavior of a dielectric sphere in a uniform field?

The dielectric constant, also known as the relative permittivity, is a measure of how easily a material can be polarized. A higher dielectric constant means that the material will be more easily polarized and will experience a greater decrease in electric field strength when placed in a uniform field. Therefore, a higher dielectric constant will result in a stronger force and torque on the dielectric sphere.

5. What are some applications of a dielectric sphere in a uniform field?

Dielectric spheres in uniform fields have various applications in industries such as electronics, telecommunications, and materials science. They can be used in capacitors, sensors, and as a means of measuring the dielectric constant of materials. They can also be used in simulations and experiments to study the behavior of electric fields and dielectric materials.

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