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 geometric length of a magnet is the physical size of the magnet, while the magnetic length refers to the region of influence where the magnetic field is produced by the magnet. The two lengths are related in that the magnetic length typically extends beyond the geometric length due to the nature of magnetic fields.
The magnetic length is shorter than the geometric length of a magnet because the magnetic field extends beyond the physical boundaries of the magnet. The field lines curve and loop around the magnet, causing the magnetic effect to reach out further than the physical dimensions of the magnet itself.
The magnetic length of a bar magnet is less than its physical length because the magnetic field around the magnet extends outward from the poles, so only a portion of the magnet's length corresponds to the region where the magnetic field is strongest. The magnetic field weakens as you move away from the poles, so the effective length of the magnet for magnetic interactions is shorter than its physical length.
Geometric length in magnets refers to the physical dimensions of the magnet, such as its length, width, and thickness. This measurement is important in determining the overall size and shape of the magnet, which can impact its magnetic properties and behavior.
Yes, a bar magnet is magnetic.
Yes, a bar magnet is magnetic.
A horseshoe magnet has two poles that are close together, which concentrate the magnetic field. A U-shaped magnet has a similar shape to a horseshoe magnet, but with one pole at each end, providing a more uniform magnetic field. A rod magnet has a simple cylindrical shape and its magnetic field is spread out along its length.
A bar magnet creates an invisible magnetic field around it, and magnetic metals such as iron are attracted to the magnet. Any metal structure is then included in the magnetic field lines. For iron filings on the sheet of paper, they will group into clusters near the poles, and also form an oval pattern along the length of the magnet, representing the magnetic field lines. The field is bulged outward nearest the center of the magnet's length. This displays the approximate two-dimensional shape of the three-dimensional magnetic field. For a picture, see the related link.
The magnetic force of a magnet is called magnetism.
The magnetic force of a magnet is the force that a magnet exerts on another magnet or a magnetic material. It is responsible for attracting or repelling objects with magnetic properties. The strength of the magnetic force depends on the material and shape of the magnet.
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A magnetic pole is where the magnetic effect is greatest.