Generating electromagnetic fields with an electromagnet

AI Thread Summary
To generate electromagnetic fields, coiling copper wire around an iron core is a common method, with a target magnetic field strength of 500 microtesla achievable at a maximum input current of 50 mA. High turn density is necessary to meet the specifications of an 8 cm radius and 3 cm length, although there may be limits to the maximum turn density. The strength of the magnetic field is strongest at the center of the solenoid and decreases with distance from it, following a specific mathematical relationship. For precise calculations, additional resources and equations can be consulted, including those from NASA and physics educational sites. Understanding these principles is crucial for successfully completing the project.
Rydyn
Messages
3
Reaction score
0
Hello,

I am working on a science project to generate electromagnetic fields. From what I understand, the simplest way to do that is to coil copper wire around an iron core. My initial goal is to create a magnetic field with a maximum strength of 500 microtesla. Can this be accomplished if I have a maximum input current of 50 mA, or do I need a higher input current? The other parameters that I wish to use are a radius of no more than 8 cm and a length of no more than 3 cm.

Thank you for any help you can provide!
 
Engineering news on Phys.org
Thank you, that helps a lot. I guess my next question is about the windings. Given my other specifications, I will need a high turn density. Is there a maximum turn density that can be used?
 
Rydyn said:
I will need a high turn density.
What makes you say that? From that calculator that @jim hardy linked:

upload_2018-11-4_10-57-53.png


That is 0.1/0.000500 or 200 times more than your requirement.
 

Attachments

  • upload_2018-11-4_10-57-53.png
    upload_2018-11-4_10-57-53.png
    8.9 KB · Views: 422
  • Like
Likes jim hardy
Rydyn said:
I will need a high turn density.

Always check your intuition against the math.
Otherwise your intuition never gets any better.
 
Ok I think I am getting it now. One last question. The equation gives the strength at the center of the solenoid. Does that mean at the end of the solenoid at the center of the radius(r=0)? From that point, the field strength decreases by z^2 away from the solenoid when r is held at 0, right?
 
Rydyn said:
Does that mean at the end of the solenoid at the center of the radius(r=0)? From that point, the field strength decreases by z^2 away from the solenoid when r is held at 0, right?

You're asking about the behavior near the end?
upload_2018-11-4_15-36-1.png


To achieve precision is a complicated calculation
https://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/19980227402.pdf
you might calculate a few points using that NASA note and try a east squares fit on them
...
.and i don't pretend to have ever done it

old jim
 

Attachments

  • upload_2018-11-4_15-36-1.png
    upload_2018-11-4_15-36-1.png
    28.4 KB · Views: 439

Similar threads

Where is the strongest intensity of an electromagnetic field produced by a solenoid?
Replies
4
Views
1K
Need an electromagnet to play Chess
Replies
37
Views
3K
Electromagnetic field vs electromagnetic wave "radiation"
Replies
7
Views
2K
Magnets with Halbach array in an AC generator
Replies
6
Views
2K
Possible to connect two electromagnets perfectly together?
Replies
14
Views
2K
How to Optimize a simple Electromagnet
Replies
4
Views
2K
Measuring low Electromagnetic field
Replies
6
Views
1K
Electromagnet Design for Separating Ferrous Material from an Ore Mixture
Replies
2
Views
1K
I have been trying to create an air-core electromagnet with no luck
2
Replies
76
Views
9K
Creating a simulator for an electromagnetic mass driver
Replies
2
Views
1K

Hot Threads

Recent Insights

Back
Top