Magnet has two poles. The Pole strength depends on flux that emanate from it. The pole strength is measured in Amp-m. If we know magnetic moment the pole strength can be calculated as magneticmoment/length of magnet
The pole strength of a magnetic can be calculated by measuring the magnetic flux that it produces and dividing it by the area of the pole face. The formula to calculate the pole strength is: Pole Strength = Magnetic Flux / Area of pole face.
Magnetic field strength refers to the intensity of magnetic field lines in a given area, measured in units of tesla or gauss. Pole strength, on the other hand, refers to the strength of the north or south pole of a magnet, which determines how strong the magnetic field is at that pole. In simpler terms, magnetic field strength is the overall intensity of the magnetic field, while pole strength specifically refers to the strength of individual poles on a magnet.
unlike poles aatract Pole strength is the ability of the two fictitious north and south poles to attract the iron filings. The pole strength of north pole is assumed to be '+m' and that of south pole is '-m'. Its SI unit is Ampere-metre.
The strength of the magnetic field outside of a solenoid is weak and the direction is similar to that of a bar magnet, flowing from the north pole to the south pole.
Magnetic field lines show the direction in which a magnetic north pole would be attracted. They provide a visual representation of the strength and direction of the magnetic field in a given space.
No, the magnetic pole is actually the part of a magnet where the magnetic effect is strongest. Each magnet has two poles: the north pole and the south pole, where magnetic field lines emerge and converge, respectively. The strength of the magnetic field is greatest at these poles, while it weakens as you move away from them.
The magnetic field strength near one pole of a bar magnet is stronger compared to farther away from the magnet. The field strength decreases as you move away from the pole and follows an inverse square law relationship with distance.
The lines around a bar magnet represent the magnetic field lines, which indicate the direction in which a magnetic north pole would be pushed when placed in the field. These lines are typically drawn from the north pole to the south pole of the magnet, showing the magnetic field's direction and strength.
The strength and direction of the magnetic field produced by a bar magnet is strongest at the poles and weakest at the center. The field lines extend from the north pole to the south pole outside the magnet and from the south pole to the north pole inside the magnet.
It would make sense and explain a lot. Imagine if over vast periods of time every part of the planet had had a turn at being the north and south pole. That would also explain why they find evidence of oceans, deserts and life in strange places.
Magnetic field lines represent the direction and strength of the magnetic field at different points in space. They form closed loops and flow from the north pole to the south pole outside of a magnet, and from the south pole to the north pole inside the magnet.
this is so easy. because they are poles. otherwise it would be a magnetic pole.