Magnetic field of iron core solenoid

AI Thread Summary
When calculating the magnetic field of an iron core solenoid, the choice between using relative permeability (μr) and effective permeability (μe) is crucial. Relative permeability accounts for the core material, while effective permeability also considers factors like air gaps, core shape, and winding layout. Effective permeability is particularly important when the core is saturated or when dealing with fast pulses or high frequencies. The confusion arises because some sources suggest using effective permeability for more accurate results. Ultimately, effective permeability is recommended for practical applications involving iron core solenoids.
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When we calculate magnetic field of iron core solenoid, should we multiply "relative permeability" or "effective permeability"?

I thought that we should use relative permeability, but wiki(http://en.wikipedia.org/wiki/Solenoid) says that we should use effective permeability.

I'm so confused...
please help me.
 
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Permeability μ0 - air/no core

L = k * μ0 * N2 * A/l

Relative Permeability μr - factors in the core material

L = k * μ0 μr * N2 * A/l

Effective permeability μe - Similar to μr but takes into acount factors such as air gaps, the shape of the core, winding layout. The effective permeability also changes if the core is saturated or fast pulses/high frequencies are involved.

L = k * μ0 μe * N2 * A/l
 
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