The metals iron, cobalt, and a few nonmagnetic elements (copper as a example, is not by nature magnetic; however many such elements can be attracted to magnetic fields with proper tweaking of the magnetic fields) there is a book published by Lindsay publications that explains. it may be out of print but it is worth a shot.
Materials that are attracted to a magnet are called ferromagnetic materials, such as iron, nickel, and cobalt. These materials have their own magnetic field that aligns with the external magnetic field. On the other hand, materials like wood, plastic, and glass are not attracted to magnets and are considered non-magnetic.
Phosphorus is not a ferrous metal and cannot be attracted by magnet.
Most thumbtacks are not magnetic and therefore will not be attracted to a magnet. If a thumbtack is made from a ferromagnetic material like steel, it may be attracted to a magnet. However, thumbtacks are commonly made from non-magnetic materials like brass or plastic.
Most Indian coins are not attracted to a magnet because they are made of non-magnetic materials such as copper, nickel, or steel. However, some coins may contain a small amount of iron or ferrous material which could make them weakly attracted to a magnet.
The stroking method can make materials like iron, cobalt, and nickel into temporary magnets. When these materials are stroked with a magnet, they align their magnetic domains and become temporarily magnetized.
An object made of iron, nickel, or cobalt will be strongly attracted to a magnet due to their magnetic properties. Other materials like wood, plastic, or glass will not be strongly attracted to a magnet.
Four common magnetic materials that are strongly attracted to a magnet are iron, nickel, cobalt, and certain alloys of these metals. This is because these materials have unpaired electrons in their atomic or molecular structure, which creates a magnetic moment. When a magnet is nearby, the magnetic field of the magnet aligns the magnetic moments of these materials, causing them to be strongly attracted to the magnet.
Objects or materials that are attracted to a magnet are typically made of iron, nickel, or cobalt. These materials have magnetic properties that allow them to be attracted to a magnet.
An iron nail is more strongly attracted to a magnet because the iron nail itself is made of ferromagnetic material, which can become magnetized in the presence of a magnetic field. This causes the iron nail to be attracted to the magnet.
Materials that are attracted to a magnet are those that contain iron, nickel, or cobalt. These materials have unpaired electrons that align in the presence of a magnetic field, creating a magnetization that is attracted to the magnet.
Aluminum, copper, and plastic are materials that are not affected by a magnet, meaning they are not attracted or repelled by a magnetic field. This is because they are not ferromagnetic materials like iron or steel, which are strongly affected by magnets.
Iron, nickel, cobalt.
No, ferromagnetic materials are strongly attracted to magnets due to their ability to become permanently magnetized. This attraction is a result of the alignment of magnetic domains within the material when exposed to a magnetic field.
Objects that are attracted to a magnet are typically made of materials containing iron, nickel, or cobalt. This includes materials like iron, steel, nickel, and certain alloys. Other materials, such as plastic or wood, are not attracted to a magnet.
Certain materials are attracted to magnets because they have unpaired electrons that align in the presence of a magnetic field, creating a magnetic force that pulls them towards the magnet.
NO! Look, but a magnet by a coke can. Get it now?
Certain materials are attracted to magnets because they have magnetic properties that align with the magnetic field of the magnet, creating a force of attraction between the two. This attraction is due to the alignment of the magnetic domains within the material, which causes the material to be magnetized and attracted to the magnet.