Well I don;t know the correct terms,but I think the distance is sometimes affect cause if the magnet is small the force would be as strong as you think but if the magnet is large the magnetism would be stronger than the small magnet of pulling together.
the poles effect it beacuse it can attract the poles
what will not attract to a magnet
No
No, aluminum is a non ferrous. Only ferrous metals can be attracted to a magnet.
The magnet will attract the iron, but will not attract the sulphur.
Well I don;t know the correct terms,but I think the distance is sometimes affect cause if the magnet is small the force would be as strong as you think but if the magnet is large the magnetism would be stronger than the small magnet of pulling together.
How does the strength of a magnet affect its ability to attract other objects from varying distances?
no
Yes, distance does affect the strength of magnetic attraction. The force of attraction between two magnets decreases as the distance between them increases. This is because the magnetic field weakens with distance, resulting in a weaker force of attraction.
If it is a magnet, then it can still attract to a refrigerator. If it is a lump of hot metal or hot ceramic, then only gravity will provide attraction. The curie temperature describes when it goes from being a magnet to being a lump.
the poles effect it beacuse it can attract the poles
They can both attract, or can repel, they can both act over a distance.
The opposite of attract when referring to a magnet is repel.
what will not attract to a magnet
No, it is not recommended to laminate over a magnet as this can interfere with the magnet's ability to attract or adhere to metal surfaces. The lamination process may also damage the magnet or cause it to lose its magnetic properties.
the south side of one magnet attract to the north side of the other magnet; opposites attract. The molecules get attracted.
The attractive property of a magnet is its ability to attract materials containing iron, nickel, or cobalt due to its magnetic field. This property is a result of the alignment of magnetic domains within the magnet, creating a force of attraction with suitable materials.