Boundary conditions in Electrostatics

Click For Summary
SUMMARY

This discussion focuses on the boundary conditions in electrostatics, specifically comparing grounded and ungrounded conducting materials. It establishes that a grounded conductor maintains a potential of zero, while an ungrounded conductor can have a constant non-zero potential depending on external influences. The conversation also addresses the implications of using image charges and substitutions in electrostatic problems, particularly referencing Jackson's methodology for analyzing charged insulated conductors in external fields.

PREREQUISITES
  • Understanding of electrostatic principles and boundary conditions
  • Familiarity with Gauss's Law and its applications
  • Knowledge of image charge theory in electrostatics
  • Proficiency in solving Poisson's equation
NEXT STEPS
  • Study the implications of grounded versus ungrounded conductors in electrostatic problems
  • Learn about the application of Gauss's Law in determining electric fields
  • Investigate the use of image charges in complex electrostatic configurations
  • Explore Poisson's equation and its role in electrostatics
USEFUL FOR

Students and professionals in physics, electrical engineering, and anyone studying electrostatics, particularly those interested in boundary conditions and the behavior of conductors in electric fields.

Gavroy
Messages
232
Reaction score
0
If I have a grounded conducting material, then I know that $\phi=0$ inside this material, no matter what the electric configuration in the surrounding will be.

Now I have a conducting material that is not grounded, then there will be (as long as I am dealing with static problems) no electric field inside this material. Therefore the potential will be constant inside this material, right?

Question 1:Therefore, is there any difference in the boundary conditions if I am dealing with a grounded conducting material and an insulator around or a non-charged insulated conducting material and an insulator around?

Question 2:Is it possible to get a non-zero potential inside an uncharged insulated conducting material? Especially, would you get a non-zero potential inside a conducting insulated material due to image charges?

Question 3:Of course, I read a few pages in Jackson's book about this and saw that he substituted the problem of a charged insulated conducting sphere in an external field with the one of having a grounded conducting sphere in the external field that has a charge sitting in the center of the sphere. Then, the magnitude of the extra charge was given by the difference of the initial charge of the sphere minus the induced image charge on the grounded conducting sphere.

Is it possible to make a general substitution like this: Thereby I mean, that we substitute a charged insulated conducting material carrying a charge by a grounded conducting material that has an additional charge(magnitude given by the difference of total charge-image charge) sitting on its surface? So, I would solve the grounded problem and would add the difference of the total charge-image charge to the surface of the material and add this field to the field calculated for the problem of the grounded material.
 
Physics news on Phys.org
Q1. Yes - i.e. the insulator gives two extra boundaries to consider.
Less trivially, grounded conductors always have neutral charge everywhere while insulated conductors may become polarized in the presence of an external field. Does that not suggest that you have to treat the calculations differently?

Q2. Yes. you can apply a PD across a conductor - but it will no longer be a static system.
You can find out if the constant potential inside a static conductor can be non-zero by investigation using gauss' law.

Q3. You can make any substitution you like as long as the math works out.
Jackson's approach looks OK for other problems to me - check the situation though, it may only work for the specific geometry used.

Note: when the situation changes, you may need to change the model too.
That grounded sphere with a central charge will probably not behave exactly like the original insulated sphere all the time.
 
1.)Why can a grounded conductor not become polarized?
2.) so how does Gauß help, it only tolls me that there is no e field.
3.) so you are basically saying: Maybe yes, Maybe no?
 
1. depends on the field - how do you charge by induction?
That should show you how a grounded conductor works differently to an isolated one.

2. in the differential form - you may see it better with Poisson's equation.

3. yes.
 

Similar threads

High School Definition of ground potential in infinite sheet charge distributions
  • · Replies 11 ·
Replies
11
Views
2K
Undergrad Computing the capacitance of a strange material
  • · Replies 3 ·
Replies
3
Views
1K
Graduate Why is "method of image current" valid in magnetostatics?
  • · Replies 4 ·
Replies
4
Views
2K
Graduate Electric Field inside the material of a hollow conducting sphere
  • · Replies 11 ·
Replies
11
Views
4K
High School Thought Experiment on Charge Carriers and Electrical Conduction
  • · Replies 3 ·
Replies
3
Views
574
High School Can charges move without a field? How charges redistribute without it?
  • · Replies 16 ·
Replies
16
Views
2K
Undergrad Calculating fields in the presence of insulators
  • · Replies 8 ·
Replies
8
Views
1K
Graduate Finding potential of a dipole outside of a sphere
  • · Replies 2 ·
Replies
2
Views
2K
Undergrad Where to find this uniqueness theorem of electrostatics?
  • · Replies 27 ·
Replies
27
Views
3K
Undergrad Charging a small metal ball from a charged hollow sphere
  • · Replies 4 ·
Replies
4
Views
2K