How Do You Calculate the Strength of an Electromagnet?

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SUMMARY

The strength of an electromagnet can be calculated using the formula B = μ₀ N I / L, where μ₀ is the permeability of free space, N is the number of turns of wire, I is the current in amperes, and L is the magnetic circuit length. The discussion highlights that the relative magnetic permeability (μᵣ) of the core material, such as iron, significantly affects the magnetic field strength, which can reach saturation levels of 1-2 Tesla. Experimental determination of the electromagnet's strength can be achieved by measuring the lifting force and converting it to Tesla using the formula F = 2π M² A, where M is the magnetization and A is the contact area. The impact of wire wrapping and distance from the iron core on magnetic strength is also addressed.

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  • Understanding of electromagnetism principles
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Nabeshin
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So, I'm playing around with electromagnets right now and I was wondering how to calculate (or determine experimentally) the approximate strength of the electromagnet. What I'm doing right now is using the formula for a solenoid, B=\mu_o N i and adding the constant for whatever material is in the center (iron right now, so x200). The thing is, for the magnet I have sitting in my room right now I have i>.250mA (highest rating my multimeter goes to) which is giving me a magnetic field strength of 1.13T. So, this is kind of ridiculous and I don't think this is what I'm really getting so here lies the problem:

Because I wrapped the wire around multiple times, does the distance from the iron core factor into the equation? It makes sense to me that each successive wrap will have less effect than the previous one. Also, I don't mind experimentally determining the value, but I'd like to have it in Tesla. Any idea how to convert data if I lift, say, a .5kg object into a tesla value at the surface of the magnet? Thanks for any help provided!
 
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In gaussian units, F=2\pi M^2A is the lifting force, where M is the "magnetization" of the magnet and A is the common contact area in cm.
With iron in contact, B=4\pi M (in gauss) at the end of the magnet.
If iron is not in contact, B at the end is 2\pi M.
 
I got this equation from a few friends and to be honest i don't even fully understand it myself yet but i hope it helps

1. The force generated by an electromagnet is approximately:
F = mu_r^2 * mu_o * N^2 * I^2 * A / (2 * L^2), where
mu_r is relative magnetic permeability of the magnet core.
mu_o is the permeability of freespace (4*pi* 10^-7)
N is the number of turns of wire in the magnet coil
I is the current in the coil, in amperes
A is the cross-sectional area of the core (in m^2)
L is the magnetic circuit length, including the object being lifted.

2. Since most iron saturates at about 1-2 Tesla, you have to check the field strength with this formula:
B = mu_r * mu_o * N * I / L, in Teslas
 

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