Why are magnatic field lines more crowded near the poles
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✴⚫☛magnetic field lines is very useful in visualizing the strength and direction of the magnetic field. As shown in Figure 1, the direction of magnetic field lines is defined to be the direction in which the north end of a compass needle points.
✴✴✴⛤⛤⛤⛤Or⛤⛤⛤⛤⛤⛤
Magnetic field lines are a visual tool used to represent magnetic fields. They describe the direction of the magnetic force on a north monopole at any given position. ... One useful analogy is the close connection between magnetic monopoles and electric charges.
✴⚫☛which means, if one takes an imaginary closed surface A (with the magnet partially or totally inside or outside) that anyway, all the lines of B that enter on one part of A, leave from the other part of A.If there is a circular loop of wire with current, the area of the N pole and of the S pole is above and below the center point respectively. In a magnet there are many "centers" along the body of the magnet, which generate field lines. All the lines overlap each other resulting in that they leave from the so-called N pole, and enter to the S pole. This happens because they are ordered (that is, because the magnet is magnetized.☜✔
⛤⛤⛤⛤⛤⛤⛤⛤⛤☺☺✌⛤⛤⛤⛤⛤⛤⛤⛤⛤
✴✴✴⛤⛤⛤⛤Or⛤⛤⛤⛤⛤⛤
Magnetic field lines are a visual tool used to represent magnetic fields. They describe the direction of the magnetic force on a north monopole at any given position. ... One useful analogy is the close connection between magnetic monopoles and electric charges.
✴⚫☛which means, if one takes an imaginary closed surface A (with the magnet partially or totally inside or outside) that anyway, all the lines of B that enter on one part of A, leave from the other part of A.If there is a circular loop of wire with current, the area of the N pole and of the S pole is above and below the center point respectively. In a magnet there are many "centers" along the body of the magnet, which generate field lines. All the lines overlap each other resulting in that they leave from the so-called N pole, and enter to the S pole. This happens because they are ordered (that is, because the magnet is magnetized.☜✔
⛤⛤⛤⛤⛤⛤⛤⛤⛤☺☺✌⛤⛤⛤⛤⛤⛤⛤⛤⛤
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