# Quick Answer: Where Do Magnets Get Their Energy?

## Do magnets have infinite energy?

Magnets, no not infinite.

What flows through them, we will never be able to fully measure the volume of because it flows beyond dimensional limits..

## What are the 7 magnets?

What are the different types of magnets?Neodymium iron boron (NdFeB)Samarium cobalt (SmCo)Alnico.Ceramic or ferrite magnets.

## How can a magnet be used to power a light bulb?

Place the neodymium magnet inside the canister and close the lid. Holding the canister between your thumb and forefinger so that the lid does not come loose, shake the canister back and forth to light the bulb.

## Do stronger magnets produce more electricity?

You will get a stronger EMF if you have a stronger magnetic field or make the magnetic field change more quickly because you will have greater flux which will generate greater force on the electrons. … Since electric power is just EMF x current, you also get a bigger power this way.

## Can a magnet power a light bulb?

Turning the crank rotates a coil inside of the large U-shaped magnets. This creates a constantly changing flux (a flux in flux?), which by Lenz’s Law induces a current within the coil. This induced current can be used to power the light bulb.

## Is free energy possible with magnets?

Most recent answer. Free energy from permanent magnet is possible.

## Do magnets contain energy?

Because magnets do not contain energy — but they can help control it… … About 99% of the power generated from fossil fuels, nuclear and hydroelectric energy, and wind comes from systems that use magnetism in the conversion process.”

## Where is magnetic energy stored?

The energy stored in a magnetic field is equal to the work needed to produce a current through the inductor. Energy is stored in a magnetic field. Energy density can be written as uB=B22μ u B = B 2 2 μ .

## Where does the energy for magnets come from?

In magnets, the electrons in atoms at one end all spin in one direction, and those in atoms at the other end all spin the opposite way. This creates a force of energy around the magnet, called a magnetic field.