Electric Field and Conductor Properties

In summary, electric flux is a measure of the electric field passing through a surface, calculated by taking the dot product of the electric field and surface area. It is related to Gauss's Law, which states that the flux through a closed surface is equal to the enclosed charge divided by the permittivity of free space. An electric field is a region where electric charges experience a force, represented by electric field lines. Electric potential is the amount of electrical potential energy per unit charge and is related to the electric field by E = -∇V. Electric field lines point in the direction of the electric field and their density indicates the strength of the field.
  • #1
Soaring Crane
469
0

Homework Statement



A cylindrical piece of insulating material is placed in an external electric field, as shown in the figure. The net electric flux passing through the surface of the cylinder is

a.positive.

b.negative.

c.zero.

Figure : http://i131.photobucket.com/albums/p289/SoaringCrane/Tip23_fig11.gif


Homework Equations



Possibly: electric flux = E*A*cos theta

The Attempt at a Solution



I’m really unsure about this question. Would the net flux be a. positive? The flux on the ends would be 0 because the E and dA vectors are perpendicular to each other while the flux on the wall near the middle will be positive since E and dA are parallel to each other?


Homework Statement



The electric field at the surface of a conductor


a.is parallel to the surface.

b.depends only on the total charge on the conductor.

c.depends only on the area of the conductor.

d.depends only on the curvature of the surface.

e.depends on the area and curvature of the conductor and on its charge.



Homework Equations



This is really a conceptual question. Possibly electric flux = integral[E*dA] = Q_enclosed/epsilon_0

The Attempt at a Solution



Is the correct choice e. depends on the area and curvature of the conductor and on its charge? I know that the electric field intensity increases as the curvature increases. The electric field for an infinitely long sheet is based on the surface charge density, so area and charge (from Gauss’ law) are other factors?

Thanks.
 
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  • #2
You are trying to work way too hard for the first problem. What IS Gauss' Law?
For the second one, yes it's conceptual. You know it depends on curvature and surface charge density. And you do know a) is false, right? (Why?) So everything is pointing at e) alright.
 
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  • #3
Gauss' law states that the net electric flux for a closed surface is equal to the total electric charge over epsilon_0.
 
  • #4
Soaring Crane said:
Gauss' law states that the net electric flux for a closed surface is equal to the total electric charge over epsilon_0.

You mean "total charge enclosed in the surface". Right?
 
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  • #5
Yes, Q_enclosed/epsilon_0. What am I doing incorrectly for the first question?
 
  • #6
You aren't doing anything wrong! But how much charge is enclosed in the cylinder?
 
  • #7
It does not say how much charge is inside. (Is there even any charge inside??)
 
  • #8
Exactly! Judging by the phrase "external electric field" and looking at the picture I would say there is no charge inside. Hence?
 
  • #9
The net electric flux is 0.
 
  • #10
Yes. That would be correct.
 

What is electric flux?

Electric flux is a measure of the amount of electric field passing through a given surface. It is calculated by taking the dot product of the electric field and the surface area.

How is electric flux related to Gauss's Law?

Gauss's Law states that the electric flux through a closed surface is equal to the enclosed charge divided by the permittivity of free space. This relationship allows us to use electric flux to calculate the charge within a closed surface.

What is an electric field?

An electric field is a region of space where an electric charge experiences a force. It is created by electric charges and is represented by electric field lines, which indicate the direction and strength of the field.

How are electric field and electric potential related?

Electric potential is the amount of electrical potential energy per unit charge at a given point in an electric field. It is related to the electric field by the equation E = -∇V, where E is the electric field and V is the electric potential.

How does the direction of electric field lines relate to the direction of electric field?

Electric field lines always point in the direction of the electric field at any given point. The density of the electric field lines also indicates the strength of the field, with a higher density indicating a stronger field.

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