Dipole (electrical) and Electric Field Concept

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Homework Help Overview

The discussion revolves around the concepts of electric dipoles and electric fields, particularly focusing on the direction of the electric field at a point on the dipole axis. The original poster expresses confusion regarding the relationship between the dipole configuration and the resulting electric field direction.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • The original poster attempts to clarify the definition of dipoles and questions why the electric field direction at a specific point is along the z-axis, despite the charges being in the x-y plane. They also compare this situation to previous examples where the electric field was restricted to the x-y plane.

Discussion Status

Some participants provide insights into the relationship between the dipole axis and the electric field direction, suggesting the use of vector addition and the principle of superposition to understand the field contributions from each charge. The original poster later acknowledges a misunderstanding of the textbook content.

Contextual Notes

The discussion highlights potential misconceptions regarding the orientation of dipoles and the resulting electric fields, as well as the need for clarity on the definitions and principles involved.

wk1989
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Hi all, I'm kind of confused right now about some concepts.

- Dipoles are essentially point charges of the same magnitude but different signs that are a certain distance away from each other, right?

-In my textbook, they were calculating a charged particle that is on the dipole axis. They got an a E that is in the direction of z (as opposed to x/y). Why is the direction of the electric field at the point P (on the dipole axis) z? The charges of the dipole and the charge at P are all on x, y plane, unless I misunderstood something.

-However, in earlier examples with charges on the same plane with other charges, the E they got was restricted in the x,y plane.

Why is this so? Am I missing something?

Thanks in advance!
 
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If the dipole axis is in the direction of z, then the field at a point on the axis will also point along the z direction. You can understand this using the principle of superposition. Work out what the field due to each charge will be and add them (vector addition).
 
The dipole axis is a line going through both charges. If that axis is the z-axis, then the field at some point along the z-axis will be parallel to the z-axis. On the other hand, the field at some point on the x-y plane that bisects the dipole (assume the dipole is at z = 0) will also be parallel to the z-axis.

(dx beat me too it!)
 
Never mind, I misunderstood what the textbook was saying, thanks for the input though.
 

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