Yes they can pull across an air gap and air is gases
The pull of the magnet is strongest at the poles.
Sorry, but aluminium in any form is non magnetic, meaning that a magnet will not pull anything made of aluminium.
The pull of a magnet is usually stronger than its push. This is because the magnetic force is generated by the alignment of magnetized atoms within the material, resulting in a stronger attraction (pull) between magnets compared to the repulsion (push) force.
The poles of a magnet. Labeled as north pole and south pole.
it can pick up anything with iron nickel or cobalt
No, a magnet cannot pull through paper because paper is not a magnetic material and does not attract to magnets. Magnets can only attract materials that contain iron, nickel, or cobalt.
if you can find a really strong magnet or a vacuum with a small nozzle to suck air threw and pull it out
The pull of the magnet is strongest at the poles.
The number of sheets a magnet can pull through will vary depending on the strength of the magnet. Generally, a typical refrigerator magnet can pull through a few sheets of paper, while a more powerful neodymium magnet could potentially pull through a thicker stack of papers.
The needle goes to the magnet because of the pull!!!
The magnet pull strength of the new magnetic device is 50 pounds.
Sorry, but aluminium in any form is non magnetic, meaning that a magnet will not pull anything made of aluminium.
no magnets can not pull some aluminium.
i think the middle
The strength of a magnet's pull or push is influenced by factors such as the material the magnet is made of, its size, and the distance between the magnet and the object it is attracting or repelling. Additionally, the shape of the magnet and any magnetic fields nearby can also affect its strength.
Yes.
The two magnets that push and pull in a motor are the stator magnet and the rotor magnet. The stator magnet is stationary and creates a magnetic field, while the rotor magnet is attached to the spinning rotor and interacts with the stator magnet to generate rotary motion.