Electric Field of a Polarized Electret

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Homework Help Overview

The discussion revolves around the electric field of a uniformly polarized cylindrical electret, specifically focusing on drawing electric field lines and calculating the electric field at various points relative to the cylinder. The problem involves understanding the concepts of polarization and electric fields in dielectrics.

Discussion Character

  • Exploratory, Conceptual clarification, Problem interpretation

Approaches and Questions Raised

  • Participants express uncertainty about the appropriate formulas to use and the method for drawing electric field lines. There is a discussion about the direction of field lines and the relationship between bound charge and polarization. One participant seeks clarification on the definition of the midplane in relation to the cylinder's geometry.

Discussion Status

Some participants have made progress in visualizing the electric field lines and are clarifying the geometry of the problem. Guidance has been provided regarding the definition of the midplane, indicating a productive direction in the discussion. However, there is still uncertainty about the calculations and the interpretation of the problem.

Contextual Notes

Participants are working under the constraints of homework rules, which may limit the information they can share or seek. The problem involves approximations, such as ignoring edge effects and using point dipole approximations at large distances.

xxbigelxx
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Homework Statement


An elecret is a dielectric that has a quasi-permanent polarization when there is no applied field. Consider a uniformly polarized cylindrical electret. The cylinder has a radius of 10h and a length h. The polarization is Pk where k is a unit vector along the axis.

a. Draw the electric field lines.
b. Calculate the electric field at the center of the cylinder. Ignore edge effects.
c. Calculate the electric field on the midplane of the cylinder at a distance
100h from the center. The approximation of a point dipole can be used since the distance is very large.


Homework Equations





The Attempt at a Solution


I need help with pretty much all of this problem. I am unsure of which formulas to use, as well as drawing the field lines. Would the field lines just be from the bottom of the cylinder to the top of it? Thanks.
 
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xxbigelxx said:

Homework Statement


An elecret is a dielectric that has a quasi-permanent polarization when there is no applied field. Consider a uniformly polarized cylindrical electret. The cylinder has a radius of 10h and a length h. The polarization is Pk where k is a unit vector along the axis.

a. Draw the electric field lines.
b. Calculate the electric field at the center of the cylinder. Ignore edge effects.
c. Calculate the electric field on the midplane of the cylinder at a distance
100h from the center. The approximation of a point dipole can be used since the distance is very large.


Homework Equations





The Attempt at a Solution


I need help with pretty much all of this problem. I am unsure of which formulas to use, as well as drawing the field lines. Would the field lines just be from the bottom of the cylinder to the top of it? Thanks.

Well, field lines always go from positive charges to negative charges, right? So the first step is to figure out how the bound charge is distributed...how are bound surface and volume charge densities related to polarization?
 
I think I made some progress here. I have the E lines going from the top to the bottom.
My only question remaining is for part c. Does the midplane mean above the cylinder, or to the side of it? I calculated the distance as if its 100h above the cylinder, along the axis.
 
xxbigelxx said:
Does the midplane mean above the cylinder, or to the side of it? I calculated the distance as if its 100h above the cylinder, along the axis.

The midplane is the plane orthogonal to the axis of the cylinder, passign through its center. So, if your cylinder is centered on the origin (going from z=-h/2 to z=+h/2), a point in its midplane 100h from the center would be at r=100h, z=0 in cylindrical coordinates.
 
So I would use this equation with a theta value of 90?
 

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