Physics.
We can be more specific if you will.
It uses your energy, a very strong magnet, and the principles of induction. Shake it to "power it up". Shaking the flashlight causes a very strong magnet to pass back and forth inside a wire coil. The magnet's movements cause the light's capacitor to be charged, which causes the light to shine.
Yes, a magnet can repel a ferromagnetic material if the poles of the magnet and the material are aligned in a way that causes repulsion.
I think if you put a magnet in a liquid i think it is not going to work again. I think if you put a magnet in a liquid i think it is not going to work again.
Magnetic energy causes the nail to move towards the magnet. The magnetic field produced by the magnet exerts a force on the nail, causing it to move.
A magnet can induce an electrical current in a conductor by creating a magnetic field that causes electrons to move. This phenomenon, known as electromagnetic induction, is the basis for how devices like generators and transformers work. The strength of the magnetic field and the motion of the magnet will impact the amount of current generated.
No
It's an electrical force that causes strength to a magnetic appearance .
The force that causes either attraction or repulsion by a magnet
When a magnet is attached to a permanent magnet, it can become temporarily magnetized by aligning its magnetic domains with the strong magnetic field of the permanent magnet. This alignment causes the magnet to exhibit magnetic properties for a short period of time.
A magnet can attract a paperclip by creating a magnetic field that pulls the iron-based metal of the paperclip towards it. This attraction is known as magnetic force, and it causes the paperclip to stick to the magnet.
They work by using a magnet.
There is no scientific proof whatsoever that magnet bracelets work. There will be a few people who swear by them. And there will always be vendors.