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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.
What else can I help you with?
What is a magnet's terminal?
A magnet's terminal is the point or surface at which the magnetic field lines begin or end. It is where the magnetic force is concentrated and strongest. Magnetic field lines always form closed loops, so there is no true "beginning" or "end" to a magnet's field lines, but the terminal point is where they appear to emerge or disappear.
Do north poles create a magnetic force?
Yes, north poles create a magnetic force as part of a magnetic field. In a magnet, the north pole is the point where magnetic field lines emerge, while the south pole is where they converge. When two magnets are brought close together, the north pole of one magnet will attract the south pole of another, showcasing the magnetic force at play. This interaction is fundamental to the behavior of magnets and electromagnetic devices.
What do domains do in a magnet?
Domains in a magnet are regions where magnetic moments of atoms or molecules are aligned in the same direction. These domains help maintain the overall magnetic properties of the magnet by ensuring a collective alignment of magnetic moments within each domain. When a magnet is magnetized, these domains align in the same direction to create a strong magnetic field.
Hw do you make a compass face the wrong way?
To make a compass face the wrong way, you can do so by placing a strong magnet next to the compass needle. The magnetic force of the magnet will overpower the Earth's magnetic field, causing the compass needle to point in the opposite direction. Remember that this can temporarily disrupt the accuracy of the compass.
At what point of magnet has least magnetic field?
At the midpoint between the poles. [Actually, that's the point with the highest magnetic field ... but its all contained within the body of the magnet, so when measuring the field it seems the lowest.]
At which point is the magnetic field the strongest?
The magnetic field is strongest at the point closest to the magnet.
The location of the strongest magnetic forces is the?
Suitable place to entrepreneur conditions to follows which product produces, how much demand in market? how to manage the product distributed in market. how should follows ethical decisions to under stand the present market situations.
Do all parts of a magnet have the same force?
The simple answer is yes. The magnetic field, as with gravity, appears to emanate from the centre point. At a given distance and without interference, the magnetic field would be the same strength.
What is a magnet's terminal?
A magnet's terminal is the point or surface at which the magnetic field lines begin or end. It is where the magnetic force is concentrated and strongest. Magnetic field lines always form closed loops, so there is no true "beginning" or "end" to a magnet's field lines, but the terminal point is where they appear to emerge or disappear.
What is the pole of a magnet?
Law of Magnetic Poles: Opposite magnetic poles attract, similar magnetic poles repel.
What does directive force magnets in a compass mean mesn?
It is the component of the earths magnet field which aligns the compass needle to the Magnetic North Pole. The Horizontal Component (directive force) is the greatest at the magnetic Equator (Aclinic Line), where the vertical component is the weakest. Above the magnetic north pole, it is the opposite. The Horizontal, or directive force is weakest and the vertical component is the strongest.
Does the temperature of a magnet effect its magnetic field?
Not until the magnet reaches its "Curie point" or temperature. Then magnetic activity ceases.
What is the neutral point of the magnet?
In a combined magnetic field, a neutral point is a place where the magnetic field is zero
Why would a magnet not point north at the north pole?
As the sides repel each otherIt's already there. Where would it point to? Mind you, the north pole and the magnetic north are not the same thing, so it would actually point to magnetic north.AnswerThe earth behaves as though there were a giant bar magnet buried deep within its surface. Magnetic North is the location where the magnetic lines of force (flux) are perpendicular to the earth's surface. So, at this point, if the magnet or compass were able to, it would point vertically downwards. If it is only able to rotate horizontally, then it may just spin haphazardly.At True North, which is hundreds of miles away from Magnetic North, the magnet or compass would point towards Magnetic North.
In which direction do magnetic field lines point from the south pole to the north pole of a magnet?
Magnetic field lines point from the south pole to the north pole of a magnet.
Does a compass work best when close to magnet?
Yes, a compass works best when it is close to a magnet because the magnet helps align the compass needle with Earth's magnetic field. The closer the compass is to a magnet, the stronger the magnetic force acting on the needle, making it easier for the compass to point in the correct direction.
A magnetic field is a region around the magnet where the magnetic force acts.?
Yes, a magnetic field is a region around a magnet or current-carrying conductor where magnetic forces are experienced by other magnets or moving charges. It is a vector field as it has both magnitude and direction at any point. By convention, the lines of magnetic field conventionally travel from the north pole to the south pole outside the magnet, while inside the magnet, they travel from the south pole to the north pole.
