How can I produce a net translational force on a ferromagnet?

AI Thread Summary
To produce a net translational force on a ferromagnet, introducing an external magnetic field is essential. A constant magnetic field typically generates torque rather than translational motion. However, non-uniform magnetic fields can create a translational effect as one pole of the magnet moves closer to the stronger part of the field, resulting in movement. An example of this phenomenon is observed in certain aquatic bacteria that possess permanent ferromagnets aligned with the Earth's magnetic field. These bacteria utilize their magnetic orientation to navigate and burrow into sediment, avoiding toxic oxygen-rich water. This highlights the intricate relationship between magnetic fields and motion in ferromagnetic materials.
endersdouble
Messages
2
Reaction score
0
How can I produce a net translational force on a ferromagnet?
 
Physics news on Phys.org
I think that's analogous to asking how you balance an egg on the tip of a pen.
 


Originally posted by endersdouble
How can I produce a net translational force on a ferromagnet?

Introduce an external magnetic field.
 
Any external field? I had some idea that a constant field would only torque the magnet, not put a translational on it...but not sure how to mathematically determine forces from field B on a ferromagnet M.
 


Originally posted by endersdouble
How can I produce a net translational force on a ferromagnet?

Uhh; push it with your finger!


... I had some idea that a constant field would only torque the magnet, not put a translational on it...but not sure how to mathematically determine forces from field B on a ferromagnet M.

Oh, you mean produce translational motion using an external field? :wink:

You are correct; generally a uniform magnetic field only produces a torque. However, most external fields are not uniform over much of a distance; so when the poles of the magnet rotate usually one pole is 'closer' to the stronger external pole and the entire magnet translates in that direction.

However, in a large B field like the earth, small magnets have no translational motion.

There is a species of aquatic bacteria that has been found to have a built-in string of 'permanent' ferromagnets inside it (about 1 micron in diameter) pointing with the North pole facing toward its 'head'.
The Earth's field doesn't 'pull' it either way, but simply rotates it to align with the Earth's North field. The bacteria has flaggella in its 'rear' that propells it forward as it points toward the Earth's North pole, which by the way, is on an angle into the earth. So the bacteria always burrows into the slim beneath the waters, keeping it away from the upper oxygen rich water that is toxic to them. Quite an interesting internal guidance system.


Creator
 
Last edited:


Originally posted by Creator

There is a species of aquatic bacteria that has been found to have a built-in string of 'permanent' ferromagnets inside it (about 1 micron in diameter) pointing with the North pole facing toward its 'head'.
The Earth's field doesn't 'pull' it either way, but simply rotates it to align with the Earth's North field. The bacteria has flaggella in its 'rear' that propells it forward as it points toward the Earth's North pole, which by the way, is on an angle into the earth. So the bacteria always burrows into the slim beneath the waters, keeping it away from the upper oxygen rich water that is toxic to them. Quite an interesting internal guidance system.

Creator
[/B]

The things you can learn on this site!
 

Thread 'Why measure the speed of light in one direction?'

It may be shown from the equations of electromagnetism, by James Clerk Maxwell in the 1860’s, that the speed of light in the vacuum of free space is related to electric permittivity (ϵ) and magnetic permeability (μ) by the equation: c=1/√( μ ϵ ) . This value is a constant for the vacuum of free space and is independent of the motion of the observer. It was this fact, in part, that led Albert Einstein to Special Relativity.
View full post »

Similar threads

I How does a ferromagnet increase the inductance of an inductor?
Replies
3
Views
2K
Susceptibility of Ferromagnetic materials
Replies
9
Views
3K
I Positive Charges: Explaining Motion Despite Net Force = 0
Replies
9
Views
2K
Lorentz force acting upon an electron moving in a circle
Replies
14
Views
1K
Force on a ferromagnetic object
Replies
4
Views
3K
Ferromagnetism: Permanent Magnetic Force and Kinetic Energy
Replies
9
Views
2K
Force exterted on a ferromagnetic object in a magnetic field
Replies
6
Views
12K
Magnetizing a ferromagnetic material
Replies
3
Views
2K
Do ferromagnetic materials do "spatial averaging"?
Replies
2
Views
1K
Force on a ferrous object in a saturating magnetic field
Replies
9
Views
2K

Hot Threads

Recent Insights

Back
Top