What Is the Difference Between H Field and B Field in a Solenoid?

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SUMMARY

The discussion clarifies the distinction between the H field (magnetic field strength) and the B field (magnetic flux density) in the context of solenoids. The H field is defined by the equation H = B / μ0 - M, where M represents magnetization, while a simplified version is H = B / μ. Understanding these concepts is crucial for accurately calculating magnetic fields in solenoids, especially when air gaps are involved.

PREREQUISITES
  • Basic understanding of electromagnetism
  • Familiarity with magnetic field concepts
  • Knowledge of solenoid construction and operation
  • Ability to perform integrals in physics
NEXT STEPS
  • Research "magnetic field strength H" for deeper insights
  • Study the implications of air gaps in solenoids
  • Explore the relationship between H and B fields in different materials
  • Learn about applications of H and B fields in electromagnetic devices
USEFUL FOR

Students and professionals in physics, electrical engineering, and anyone involved in the design and analysis of electromagnetic systems, particularly those working with solenoids.

anon6912
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This is a slide from my lecture illustrating how to find the magnetic field in a solonoid with an air gap.

I don't quite understand the following points:
What is the H field?
Whats the difference between the H field and the B field?
Why do you need them?

Other than that i understand how to do the integral and the evaluation. I just don't understand what the H field is.

EDIT: I attached a nother slide about the H field
 

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H is the magnetic field strength while B is the flux density. The strict definition of H is

H = B / μ0 - M where M is the magnetisation

However it is usually possible to simplify the calculation

H = B / μ

look at http://hyperphysics.phy-astr.gsu.edu/hbase/magnetic/magfield.html or search for "magnetic field strength H" and you will most likely find what you need
 

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