What is the Analytical Solution for the Magnetic Field of a Solenoid?

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Discussion Overview

The discussion centers on the analytical solution for the magnetic field of a solenoid, particularly focusing on off-axis magnetic fields. Participants explore various sources and derivations related to the topic, including references to specific texts.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • One participant inquires about the analytical solution for the off-axis magnetic field of a solenoid, referencing Franklin's "Classical Electromagnetism" as a potential source.
  • Another participant cites Smythe's "Static and Dynamic Electricity," noting that it derives exact equations for a helical-wound single-layer solenoid, which includes off-axis radial and azimuthal fields unless the winding pitch is zero.
  • A third participant provides a description of a solenoid, explaining how it generates a magnetic field and referencing Ampere's law to derive the magnetic field inside a long solenoid, emphasizing that the field is constant and independent of the solenoid's diameter or wire arrangement.

Areas of Agreement / Disagreement

Participants present multiple viewpoints and references regarding the analytical solutions for the magnetic field of a solenoid. There is no consensus on a single solution or approach, and the discussion remains unresolved.

Contextual Notes

The discussion includes references to specific texts and derivations, but does not resolve the assumptions or limitations of the various approaches mentioned.

jadelsky
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Hi,

I red that in Franklin's book "Classical Electromagnetism" there's off-axis magnetic field of a solenoid solution...well I need that but can't get the book...

so I'm wondering if anyone has that solution for magnetic field of a solenoid analytically?
It's important and I would be greatfull if anyone can help...
 
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Smythe "Static and Dynamic Electricity" 3rd Edition, Section 7.15 derives the exact equations for a helical-wound single-layer solenoid. There is an off-axis radial and azimuthal field, unless the pitch of the winding is zero.
 
A solenoid is a coil of wire designed to create a strong magnetic field inside the coil. By wrapping the same wire many times around a cylinder, the magnetic field due to the wires can become quite strong. The number of turns N refers to the number of loops the solenoid has. More loops will bring about a stronger magnetic field. Ampere's law can be applied to find the magnetic field inside of a long solenoid as a function of the number of turns per length N/L and the current I. We now look at a cross section of the solenoid.

he blue crosses represent the current traveling into the page, while the blue dots represent the currents coming out of the page. Ampere's law (left) for the red path can be written as.

where the number of loops enclose by the path is (N/L)x. Only the upper portion of the path contributed to the sum because the magnetic field is zero outside, and because the vertical paths are perpendicular to the magnetic field. By dividing x out of both sides of the last equation, one finds:

This is the result we have been after. The magnetic field inside a solenoid is proportional to both the applied current and the number of turns per unit length. There was no dependence on the diameter of the solenoid or even on the fact that the wires were wrapped around a cylinder and not a rectangular shape. Most importantly, the result did not depend on the precise placement of the path inside the solenoid, indicating that the magnetic field is constant inside the solenoid.
 
thanks very much
 

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