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That is, basically, the way ALL magnets are created - by moving electric charges. In the case of a permanent magnet, it is mainly the electrons orbiting their atoms that produce this effect.
As to the "why", the Special Theory of Relativity provides an answer, but it is fairly complicated. The summary paragraph on Wikipedia (article "Magnetism") says:
"As a consequence of Einstein's theory of special relativity, electricity and magnetism are fundamentally interlinked. Both magnetism lacking electricity, and electricity without magnetism, are inconsistent with special relativity, due to such effects as length contraction, time dilation, and the fact that the magnetic force is velocity-dependent. However, when both electricity and magnetism are taken into account, the resulting theory (electromagnetism) is fully consistent with special relativity. ..."
The Wikipedia article "Classical electromagnetism and special relativity" provides a more detailed explanation about the relationship between electricity and magnetism, according to the Special Theory of Relativity - but the math is a bit too complicated for my liking.
What else can I help you with?
Electromagnet is a temporary magnet because you can?
turn it off by unplugging the current source.
How can you control the magnetic field of a magnet to turn it on and off?
To control the magnetic field of a magnet and turn it on and off, you can use an electromagnet. By passing an electric current through a coil of wire wrapped around a magnetic material, such as iron, you can create a magnetic field. When the current is turned off, the magnetic field disappears, effectively turning the magnet off.
What is electrical method of making magnet?
An electrical method of making a magnet involves passing an electrical current through a coil of wire to create an electromagnetic field. The coil is usually wrapped around a core material such as iron, which enhances the magnetic field strength. This process, known as electromagnetism, allows for the temporary creation of a magnet that can be turned on and off by controlling the electrical current.
How can you produce current in a wire with a magnet that is stationary?
When a magnet is stationary near a wire, it can produce current in the wire through electromagnetic induction. This happens when the magnetic field from the magnet interacts with the electrons in the wire, causing them to move and create an electric current.
What type of magnet is a electromagnet?
An electromagnet is a type of temporary magnet that is created by passing an electric current through a coil of wire wrapped around a magnetic core, such as iron or steel. The strength of an electromagnet can be adjusted by changing the amount of electric current flowing through the coil.
What is a temporary magnet caused by an electrical current?
A Electro Magnet, caused in theory by the alignment of the particles in the material duo to the current passing through it.
Electromagnet is a temporary magnet because you can?
turn it off by unplugging the current source.
Does salt water passing through a magnet create electricity?
No, salt water passing through a magnet does not create electricity. In order to generate electricity, you need a conductor moving through a magnetic field, such as in a generator or dynamo. The salt water itself is not conducting electricity in this scenario.
Will Dragging a magnet through a wire coil will create electricity?
Yes. That peculiar action weill create a current in the coil for as long as you keep the magnet moving.
How can you control the magnetic field of a magnet to turn it on and off?
To control the magnetic field of a magnet and turn it on and off, you can use an electromagnet. By passing an electric current through a coil of wire wrapped around a magnetic material, such as iron, you can create a magnetic field. When the current is turned off, the magnetic field disappears, effectively turning the magnet off.
How can you produce current in a wire with a magnet that is stationary?
When a magnet is stationary near a wire, it can produce current in the wire through electromagnetic induction. This happens when the magnetic field from the magnet interacts with the electrons in the wire, causing them to move and create an electric current.
What is electrical method of making magnet?
An electrical method of making a magnet involves passing an electrical current through a coil of wire to create an electromagnetic field. The coil is usually wrapped around a core material such as iron, which enhances the magnetic field strength. This process, known as electromagnetism, allows for the temporary creation of a magnet that can be turned on and off by controlling the electrical current.
What is made by coiling wire around iron and passing an electric current through it?
pass electricity through the wire and you'll have an electro magnet.
How do you strengthen a magnet?
You can strengthen a magnet by exposing it to a strong magnetic field, either by placing it near another strong magnet or using an electromagnet. You can also induce a current in the magnet by tapping it with a hammer or passing an electric current through it to realign its magnetic domains and increase its strength.
What is made by passing an electric current through coils of wire?
An electro magnet is created when a current is passed through a coil of wire. This effect is the main operation of how an electrical solenoid operates.
Can Electricity can be used to make a temporary magnet.?
Yes, electricity can be used to create a temporary magnet through a process called electromagnetic induction. When a current flows through a wire, it generates a magnetic field around the wire, creating a magnetic effect. This principle is used in electromagnets, where a current passing through a coil of wire wrapped around a metal core creates a magnetic field.
What type of magnet is a electromagnet?
An electromagnet is a type of temporary magnet that is created by passing an electric current through a coil of wire wrapped around a magnetic core, such as iron or steel. The strength of an electromagnet can be adjusted by changing the amount of electric current flowing through the coil.
