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It is equally strong at the north pole compared with the south pole.
The magnetic force of a magnet is strongest at its poles. This is because the field lines of the magnetic field are most concentrated at the poles where they enter and leave the magnet. At the poles the magnetic field is strongest and the force is the greatest. The north pole is where the magnetic field lines enter the magnet. The south pole is where the magnetic field lines leave the magnet. The magnetic field lines are most concentrated at the poles. The magnetic force is greatest at the poles.
That is not rightit has to be Every magnet has one pole.
When opposite forces of a magnet (Negative and Positive) are close, they attract to each other and vice versa.
a magnet with many lines of force is STRONG
the magnet gets weaker
The two ends, or poles.
the magnet field is the strongest well the summer solstic when the suns gravitational pull is the strongest
At the magnet's north and south poles.
No.The part of the magnet where there is the strongest pull or attraction are called the poles of the magnet.
The magnetic field of a bar magnet is strongest at either pole of the magnet. It is equally strong at the north pole compared with the south pole. The force is weaker in the middle of the magnet and halfway between the pole and the center
It is equally strong at the north pole compared with the south pole.
The magnetic force of a magnet is strongest at its poles. This is because the field lines of the magnetic field are most concentrated at the poles where they enter and leave the magnet. At the poles the magnetic field is strongest and the force is the greatest. The north pole is where the magnetic field lines enter the magnet. The south pole is where the magnetic field lines leave the magnet. The magnetic field lines are most concentrated at the poles. The magnetic force is greatest at the poles.
The north and south poles.
Magnetic forces are the strongest at the poles of the magnet. In the middle of the magnet, the magnetic force is minimal.
The highest concentration of magnetic lines of force is at the poles of the magnet. It's that simple. Here's why. The lines of force are all "bundled together" inside the magnet, and run its length to emerge at one pole. Then the lines of force spread out to "go around" or "surround" the magnet to reach "around" to go back to the other pole. Then they concentrate at that other pole to return to the inside of the body of the magnet. Use the link to get more information and see a diagram.On the Sun, the magnetic fields that create the prominences may be the strongest magnetic fields. On Earth, I'd guess that those used in MRI machines would be right up there, but the fields used to steer particles in the hadron collider may be worth a check as well. I have no numbers readily available for you.
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.