The magnetic field would become a magnetizing field as far as the magnetic material is concerned. If the material is dia magnetic then the electrons magnetic moment would get aligned in such a way as the resultant magnetic field within the material becomes perpendicular to the magnetizing one.
In case of para, resultant would become parallel to the external
In case of ferro, domains get aligned and so intense magnetic induction results.
it effects it because different substance are thicker and can take away somem of the fllow
Temperature affects amagnets strenght
It will attract.
using a stronger ferromagnetic material for the core. :)
Two things, either increase the voltage by adding another battery (to increase current in the coil), or increase the number of turns in the coil. We're assuming you wound your coil around some nice ferromagnetic material and are using that for a core.
You can change the strength of an electromagnet 3 ways. You can increase the amount of current (Amperes) running through your wire. You can increase the number of turns, or, if insulated, number of layers of turns on your wire coil. Last you can change the core - material, density, diameter, length.
An electromagnet's pulling force can be made stronger by introducing iron core in it.It increases the magnetic pull.
An electromagnet is a stronger magnet.
using a stronger ferromagnetic material for the core. :)
using a stronger ferromagnetic material for the core. :)
longer= stronger
The more turns of wire in an electromagnet the stronger the magnetic field.
The strength of an electromagnet is determined by the number of windings, the current flowing through the windings, and the permeability of the core.
The electromagnet is made stronger in proportion to the current given. Refer to the link provided for more information.AnswerWhen current passes through the coil of wire surrounding the core of an electromagnet, it acts to align the magnetic domains within that core. Once all the domains have been aligned, the electromagnet has reached 'saturation' and is as strong as it can get. So the strength of an electromagnet is NOT proportional to its magnetising current.
That's because the strenght of the electromagnet is related to the number of coils then, the more coils gets more strenght because as you add more coils to the electromagnet you have more and more magnetic field. -I hope this answer helps you if you have a question regarding any questions on any subject please fell free to ask. Thank You
Either increasing the size of the current (in amps) or the number of turns of wire wrapped around the core will make a stronger magnet. A larger current will make a stronger magnet (up until too much makes the wire melt!). Increasing the voltage forces more current through the electromagnet.
Electromagnets consist of wire coiled around a core. The core can be anything from air to a nail or even a pencil. Since electrons flow freely through a conductive core (like a nail), an electromagnet made with a metal core will have a larger magnetic field (and thus be stronger) than an electromagnet with a wooden core. The strength of an electromagnet is related to the number of times the wire is coiled around the core and the distance the wire covers across the core. The more coils wrapped closer together, the stronger an electromagnet will be. The amount of voltage running through the wire also plays a role in an electromagnet's strength. More voltage means more electrons moving through the wire and thus a stronger magnet.
An electromagnet becomes stronger when the current through it increases, i.e. the Amps.
Neodymium
increase the current in the solenoid add more loops of wire to the solenoid,wind the coils of the solenoid closer together, use a stronger ferromagnetic material for the core. I hope this answered better than the last rude person.