Ever notice how a magnet works? Oh, sure, it picks up paper clips or tacks, but what are the paper clips or tacks doing? What they are doing is trying to get "into the magnetic field" of the magnet. The magnetic won't really pick them up very well along its side, will it? Nope. You see that now. But it picks stuff well on the ends. Here's the scoop. The magnet has magnetic lines of force running through it (inside it), and these lines of force emerge from one pole (or end), curve around the body of the magnet, and re-enter the magnet at the other pole (or end). The density of the magnetic field outside the magnet is greatest at the poles ('cause that's where the lines of force leave and return). The lines of force will always do this (leave a pole, go around, and go back in the other pole), but the lines of force pass through air around the magnet. They'd rather not do that if they have a choice. They'd rather pass through something that will "conduct" the magnetic lines of force. Like a paper clip. Or a tack. Or a lot of them. Iron filings will work, too. Any ferromagnetic material. Ferromagnetic materials that the magnet acts on will "get into the lines of force" if those materials (tacks, paper clips or whatever) can move. That's why you see the "arrangements" of materials that the magnet has picked up. That's why the materials hang around at the poles (the ends) of the magnet. They want to get into the magnetic flux lines, and want to get into as many as they can.
The pull of a magnet is strongest at the poles, where the magnetic field lines are most concentrated and where the magnetic force is most intense.
The place where magnetism is the strongest on a magnet is at the poles, which are located at the ends of the magnet. The magnetic field lines are most concentrated and strongest at the poles compared to other parts of the magnet.
The magnetic field of a magnet is strongest at the poles, where the magnetic field lines are closest together and most concentrated.
Yes, the magnetic forces are strongest at the poles of a magnet because that's where the magnetic field lines are most concentrated. The strength of the magnetic field decreases as you move away from the poles toward the center of the magnet.
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.
A magnet is strongest at the North and South Poles.
The pull of a magnet is strongest at the poles, where the magnetic field lines are most concentrated and where the magnetic force is most intense.
the poles
The north and south poles.
The place where magnetism is the strongest on a magnet is at the poles, which are located at the ends of the magnet. The magnetic field lines are most concentrated and strongest at the poles compared to other parts of the magnet.
Where is the magnetic field around a magnet strongest? Answer: A magnetic field is strongest around the poles. Your welcome! :)
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 magnet is strongest at the poles, where the magnetic field lines are closest together and most concentrated.
It is the points on the surface of a magnet at which magnetic forces are strongest.
The poles of a magnet are the parts where its magnetic field is strongest. The north and south poles are the regions where the magnetic force is concentrated and where other magnetic materials are most affected.
The area of a magnet with the strongest magnetic effect is typically the poles, specifically the tips of the magnet where the magnetic field lines are most concentrated and the magnetic force is strongest.
Yes, the magnetic forces are strongest at the poles of a magnet because that's where the magnetic field lines are most concentrated. The strength of the magnetic field decreases as you move away from the poles toward the center of the magnet.