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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.
Skylar Hagenes
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What do domains do in a magnet?
Magnetic domains line up with each other during magnetization. Lines of force point out of the north pole and into the south pole.
What direction does the needle on a compass point when a horseshoe magnet is put beside it?
The direction of the needle will remain unchanged. This is due to magnetic forces, the needle will remain in line with the lines of magnetic force which flow between the north and south poles.
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.]
What is magnetic field?
A condition found in the region around a magnet or an electric current, characterized by the existence of a detectable magnetic force at every point in the region and by the existence of magnetic poles.Read more: magnetic-field
How do magnets work?
Magnets have magnetic fields that attract items containing iron. Some of the substances attracted to magnets include iron, nickel, and steel. To understand a magnet you must first understand the magnetic field. A magnetic field is created as the result of moving charges such as electrons. A magnet's magnetic field either attracts or repels certain metals, as well as other magnets. A magnet has two ends that are referred to as poles. One pole is called north and the other one is referred to as south. To attract magnets to each other, you have to place opposite ends of two magnets near each other. Placing like ends of two magnets near each other causes the opposite to occur; the two magnets repel each other. A magnet is any object that has a magnetic field. It attracts ferrous objects like pieces of iron, steel, nickel and cobalt. In the early days, the Greeks observed that the naturally occurring 'lodestone' attracted iron pieces. From that day onwards began the journey into the discovery of magnets. These days magnets are made artificially in various shapes and sizes depending on their use. One of the most common magnets - the bar magnet - is a long, rectangular bar of uniform cross-section that attracts pieces of ferrous objects. The magnetic compass needle is also commonly used. The compass needle is a tiny magnet which is free to move horizontally on a pivot. One end of the compass needle points in the North direction and the other end points in the South direction. The end of a freely pivoted magnet will always point in the North-South direction. The end that points in the North is called the North Pole of the magnet and the end that points South is called the South Pole of the magnet. It has been proven by experiments that like magnetic poles repel each other whereas unlike poles attract each other. What is a magnetic field? The space surrounding a magnet, in which magnetic force is exerted, is called a magnetic field. If a bar magnet is placed in such a field, it will experience magnetic forces. However, the field will continue to exist even if the magnet is removed. The direction of magnetic field at a point is the direction of the resultant force acting on a hypothetical North Pole placed at that point. When current flows in a wire, a magnetic field is created around the wire. From this it has been inferred that magnetic fields are produced by the motion of electrical charges. A magnetic field of a bar magnet thus results from the motion of negatively charged electrons in the magnet. Just as an electric field is described by drawing the electric lines of force, in the same way, a magnetic field is described by drawing the magnetic lines of force. When a small north magnetic pole is placed in the magnetic field created by a magnet, it will experience a force. And if the North Pole is free, it will move under the influence of magnetic field. The path traced by a North magnetic pole free to move under the influence of a magnetic field is called a magnetic line of force. In other words, the magnetic lines of force are the lines drawn in a magnetic field along which a north magnetic pole would move. The direction of a magnetic line of force at any point gives the direction of the magnetic force on a north pole placed at that point. Since the direction of magnetic line of force is the direction of force on a North Pole, so the magnetic lines of force always begin on the N-pole of a magnet and end on the S-pole of the magnet. A small magnetic compass when moved along a line of force always sets itself along the line tangential to it. So, a line drawn from the South Pole of the compass to its North Pole indicates the direction of the magnetic field. # The magnetic lines of force originate from the North Pole of a magnet and end at its South Pole. # The magnetic lines of force come closer to one another near the poles of a magnet but they are widely separated at other places. # The magnetic lines of force do not intersect (or cross) one another. # When a magnetic compass is placed at different points on a magnetic line of force, it aligns itself along the tangent to the line of force at that point. These are just some of the basic concepts of magnetism. One cannot possibly grasp the depth and appreciate the versatility of magnets without reading more about the uses of magnets, the Earth as a huge magnet and electromagnetism among other things.
What is the pole of a magnet?
Law of Magnetic Poles: Opposite magnetic poles attract, similar magnetic poles repel.
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.
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.
Is it possible for the opposing magnetic field to be strong enough to completely stop an object from falling?
No because the magnetic field induced attracts the falling magnet, creating a force which slows down the magnet. If the magnetic field increased to a certain point where the force acting on the magnet was enough to stop the magnet from falling, gravity would act on the bob, causing the magnet to speed up again until it reaches a happy medium speed (or even a terminal speed if you will). When this happens, a changing magnetic field occurs and an induced current is formed again. This cycle repeats.
Why does magnetic lines of force in two magnets doesn't intersect?
Because it wouldn't make sense. Two intersecting lines of force - in this case, magnetic lines of force - would mean that at the point of the intersection, the force felt by a small test magnet would be in two different directions.
What do domains do in a magnet?
Magnetic domains line up with each other during magnetization. Lines of force point out of the north pole and into the south pole.
What is a neutral point?
The point in the magnetic field at which the horizontal components of earth's magnetic field and the magnetic field due to magnet are exactly opposite & equal is known as neutral point.
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.
How could magnetic rocks affect a compass and why?
In a regular magnetic compass, the needle is a magnet. One end is the south pole and the other end is the north pole. Magnets are affected by other magnets. If a magnet is placed near a magnetic compass, the north pole of the compass's needle is attracted by the south pole of the magnet, and the south pole of the compass's needle is attracted by the north pole of the magnet.
What is the statements proves that the earth is a magnet?
the fact that the compass needle automatically points to the north proves that their is a magnetic force acting on it. Thus it is believed that the earth is a huge electromagnet.answ2. The Earth IS NOT a magnet. Electrical currents flowing parallel to the Equator create a magnetic field. At approximately 90o to the Equator.Your compass does NOT point to the north pole. Your compass aligns itself with the lines of magnetic force at your location.
