It is made lodestone
A regular magnet is typically made out of materials containing iron, nickel, or cobalt. These materials align their atomic structures to create a magnetic field, allowing the magnet to attract or repel other magnetic materials.
You can use a regular, household magnet with a paper clip as paper clips are usually made of steel or iron, which are magnetic materials.
no it can not .it is because a magnetic meterial can made in to magnet
An electromagnet is made from a coil of wire with an electric current running through it, producing a magnetic field. It can be turned on and off by controlling the electric current. A regular bar magnet is a permanent magnet that always produces a magnetic field.
It requires a current through a coil of wires.
magnet which we get naturally from earth is called natural magnet e.g: lodestone.. while magnet made from magnetic material is called artificial magnet ...
You would need to define 'regular magnet' to get any kind of magnet.
no it can not .it is because a magnetic meterial can made in to magnet
a temporary magnet!
A temporary magnet.
Permanet Magnet
An electromagnet is made from a coil of wire with an electric current running through it, producing a magnetic field. It can be turned on and off by controlling the electric current. A regular bar magnet is a permanent magnet that always produces a magnetic field.
A magnet produced in earth; not man made.
Cohalt,Iron and nickel it might be one of these.
Artificial magnets can be easily shaped into different forms and sizes, making them more versatile for various applications compared to natural magnets. The magnetic strength of artificial magnets can be controlled and manipulated through processes like magnetization, allowing for a more customizable and precise magnetic field.
no they can not.
If it has been magnetized by another magnet, then it is just a temporary magnet, but if it uses an electric current, then it is an electro-magnet.
One advantage of using an electromagnet over a regular magnet is its controllability. The strength of an electromagnet can be adjusted by varying the amount of current flowing through it, providing flexibility for different applications. Additionally, electromagnets can be turned on and off easily by controlling the flow of electricity.