What is the Demagnetizing Field in Magnetism?

  • Thread starter Master J
  • Start date
  • Tags
    Field
In summary, the conversation discusses the concept of the B field in magnetism and its relationship with the H field. The internal H field is defined as the external H field minus the demagnetizing field, represented by NM. The demagnetizing field is a fictitious magnetic charge density on the ends of a ferromagnetic object that opposes the external field and reduces the induced magnetization.
  • #1
Master J
226
0
So I understand what the B field is in magnetism. This is the fundamental field.

We can also define a H field, H = B/u - M, to take into account that we cannot actually measure magnetization currents (cf. solenoid).

Now, if we have a B field applied to a material, call it Ba, the field inside is given by

B = u(Hi + M), where Hi is the internal H field, defined as Hi = Ha - NM. Its this last part that confuses me. What is this demagnetizing field, NM?
 
Physics news on Phys.org
  • #2
Most writers state that the magnetism in a ferromagnetic object is induced by an external H (not B) field. To visualize the demagnetizing field, imagine an iron cylinder with its axis parallel to a field H_0. Boundary condition equations allow one to replace the induced M by an effective (and fictitious) magnetic charge density on the face of each end. The field outside the rod is that from the two charged surfaces (this field appears dipolar at sufficient distances) added to H_0. Note that inside the rod the charges produce a field that opposes the external field, tending to reduce M. This is the demagnetizing field.
 

1. What is the H field?

The H field, also known as the magnetic field intensity, is a measure of the strength of a magnetic field. It is a vector quantity and is measured in amperes per meter (A/m).

2. How is the H field related to the magnetic material?

The H field is directly proportional to the magnetic material's magnetization (M) and the permeability (μ) of the material. It is represented by the equation H = M/μ.

3. What is the demagnetizing field?

The demagnetizing field is a magnetic field that opposes the magnetization of a magnetic material. It is caused by the external magnetic field interacting with the material's own magnetization, and it can weaken or completely demagnetize the material.

4. How does the demagnetizing field affect magnetic materials?

The demagnetizing field can cause a decrease in the magnetic field intensity and affect the material's ability to retain its magnetization. It can also lead to the formation of magnetic domains, where the material's magnetization is not uniform, resulting in a weaker overall magnetic field.

5. How can the demagnetizing field be minimized?

To minimize the demagnetizing field, magnetic materials are often shaped into specific geometries, such as horseshoe or C-shaped magnets, to reduce the amount of magnetic flux that is not contained within the material itself. Another method is to use soft magnetic materials, which have a high permeability and are less affected by the demagnetizing field.

Similar threads

Stray field and demagnetizing field
    • Electromagnetism
Replies
6
Views
5K
I Defining the Forces from Magnetic Fields and Electric Fields
    • Electromagnetism
Replies
4
Views
821
I How to obtain Hamiltonian in a magnetic field from EM field?
    • Electromagnetism
Replies
6
Views
674
Calculating the magnetic field in this seemingly simple case?
    • Electromagnetism
Replies
3
Views
619
I Magnetic field as result of length contraction
    • Electromagnetism
Replies
17
Views
1K
How does the saturation flux density affect magnetic field strength?
    • Electromagnetism
Replies
1
Views
724
Magnetic Flux outside of a long solenoid
    • Electromagnetism
Replies
2
Views
932
Induced Electrical Field (Maxwell-Faraday's Law)
    • Electromagnetism
Replies
4
Views
1K
Magnetic field lines and magnetic flux density
    • Electromagnetism
2
Replies
35
Views
3K
Placing an AC magnetic field inside a static DC field
    • Electromagnetism
Replies
8
Views
971

Hot Threads

Recent Insights

Back
Top