aluminum, nickel, and cobalt
Yes, the two poles of a magnet have the same atoms and elements. The magnetic properties of a magnet are a result of the alignment of the atoms within the material, not a difference in the type of atoms present in the two poles.
You cannot make a magnet stick directly to aluminum because aluminum is not magnetic. However, you can make a magnet stick to aluminum by placing a magnetic material, such as iron, in between the magnet and the aluminum surface.
To make a metal magnet, you can create a temporary magnet by stroking a metal material (like iron) with a permanent magnet in the same direction. This aligns the magnetic domains in the metal. For a more permanent magnet, you can heat the metal to a specific temperature and then cool it in the presence of a magnetic field to enhance its magnetic properties.
A magnet can make something move by exerting a force on certain materials like iron, nickel, and cobalt. When these materials are attracted to the magnet, they can move towards or away from it depending on the orientation of the magnet. This movement is caused by the magnetic field surrounding the magnet interacting with the magnetic properties of the material.
To make a magnet float using another magnet, you can use the principle of magnetic repulsion. By placing two magnets with like poles facing each other, the repelling force between them can create a levitating effect, causing one magnet to float above the other.
Metals + Stone = Magnet
Ferromagnetic elements as Fe, Co, Ni.
Iron, Nickel and Cobalt
magnetized nickel and iron
Yes, the two poles of a magnet have the same atoms and elements. The magnetic properties of a magnet are a result of the alignment of the atoms within the material, not a difference in the type of atoms present in the two poles.
There are three elements in a magnet: iron, boron, and neodymium.
You cannot make a magnet stick directly to aluminum because aluminum is not magnetic. However, you can make a magnet stick to aluminum by placing a magnetic material, such as iron, in between the magnet and the aluminum surface.
one of the three elements that a magnet will attach to
A spectroscope, possibly. A magnet is not the correct answer because there are several metallic elements which are magnetic.
yes
by stroking it with another magnet :D
put a stick with a magnet