the closer the magnet is to the nails the greater the magnetic force between the magnet and the nails
If you change the distance between the magnet and the nails, the strength of the magnetic force acting on the nails will vary. As the distance increases, the magnetic force decreases, making it less likely for the nails to be attracted to the magnet. Conversely, decreasing the distance enhances the magnetic pull, allowing the nails to be drawn to the magnet more effectively. This phenomenon illustrates the inverse square law of magnetism, where force weakens with increased distance.
The distance between the center of a magnet and one of its poles is half the distance between the two poles when the magnet is symmetrically oriented. So in this case, the distance from the center of the magnet to one of its poles would be half of 58.8 cm, which is 29.4 cm.
Changing the distance between a magnet and a nail affects the strength of the magnetic force acting on the nail. As the distance increases, the magnetic attraction decreases due to the inverse square law, meaning the force diminishes rapidly with distance. Conversely, bringing the magnet closer to the nail increases the magnetic force, allowing the nail to become magnetized more effectively. Ultimately, the nail will only be attracted to the magnet if it is within a certain range.
Magnetic force is inversely proportional to the square of the distance from the magnet which generates it.
The magnetic force between a magnet and another object decreases with increasing distance. This relationship follows an inverse square law, meaning that the force decreases exponentially as the distance between the magnet and the object increases.
Zero - that is, when they are touching. The strength of the magnetic force is inversely proportional to the square of the distance between the magnet and the paper clip.
Well I don;t know the correct terms,but I think the distance is sometimes affect cause if the magnet is small the force would be as strong as you think but if the magnet is large the magnetism would be stronger than the small magnet of pulling together.
Yes, the strength of the magnetic force decreases as the distance from the magnet increases. This decrease follows an inverse square law, similar to the gravitational force, meaning that the force is inversely proportional to the square of the distance between the magnet and the object.
Magnetic equator.
The effective length of a magnet is the distance between the magnetic poles. It is always less than the geometric length of the magnet,though the actual relation between the two depends on the shape of the magnet.
The force exerted by two magnets decreases as they are moved farther apart. This is because the strength of the magnetic field weakens with distance. The force between two magnets follows an inverse square law relationship with distance.
No, that statement is false. The strength of a magnet affects the magnetic field it generates but not necessarily the change in motion it causes. The change in motion is determined by factors such as mass, distance, and the magnetic field's influence on an object.