Electric force of repulsion.
the poles between the magnets. are like one of our professor . she's like a magnet of maritime.
1) If you apply a force to an arrow, its movement changes. 2) Since the bow pushes against the arrow (to make it move forward), the arrow pushes back. That's the recoil, that is common when shooting things.
Magnets in America could be brought everywhere ..... try the 2 dollar shop
2 or more
Magnets in motors do not push or pull each other at all. When electricity is passing through the copper wire of the Rotor, (the rotating part of the motor and shaft) the magnetism of the fixed magnet, forces the copper wires in the Rotor, to move away from the magnet. This force created by the combination of current in the copper wire, and the magnetic field of the magnet; creates a force strong enough to cause the rotor to move away from the magnet. The overall outcome is that the rotor starts to rotate permanently . This force is referred to as the electro- magnetic field force. If you use more separate magnets you will get more power out of the motor. It is common for larger motors to have 8 or more permanent magnets in them, but they do not push or pull against each other. They actually push the copper wires, providing the wires carry electricity.
Magnets always produce an electromagnetic force- between the similar ends of magnets it is electromagnetic repulsion.
When magma pushes 2 plates apart. :)
The electric force between two charged particles is inversely proportional to the square distance between them.Accordingly, it is reduced by a factor of 9
You now have 2 bar magnets, each with half the magnetic force of the original.
pull your hands away from each other with all your might!
magnetic poles (force) will draw paper clips to magnets
If they were strong enough magnets, then yes, if it was even stronger it might even do harm.
use science words hee hee hee heedic.comand more
the poles between the magnets. are like one of our professor . she's like a magnet of maritime.
There are 2 properties of magnets.
use gun powder or plasic explosive in the middle
we need to assume the size of the two magnets is small (<0.1 of the separation) compared with the distance between the magnets. The magnetic force (F) will vary as the inverse of the square of the separation (a). That is, F = k/a^2, where k=a constant. The force magnitude will be 4 times smaller when a is doubled.