This is a really confusing question, but I believe you want to know how the magnetic domain at the north pole of a magnet is. The answer is uniform.
the north and south poles
I think you mean when you get a bigger magnet. To answer that question you need to know how a magnet works. All materials are made of molecules which are groups of atoms. These molecule organise in to groups called domains, everything is slightly magnetic because all the domains generate an electromagnetic field. When all the domains are aligned together (so all the north poles point one way) the magnetic force is noticable. If you have a bigger magnet then there are more domains to exert an electromagnetic force, I hope you got all that.
The north and south poles.
Originally, the poles of a magnet were called the 'North-seeking pole' and the 'South-seeking pole', because they pointed towards the North (actually Magnetic North) and South respectively. Over time, we have dropped the 'seeking' part of the names and they are now known, simply, as the 'north pole' and the 'south pole' These terms were then used as the names of the magnetic polarities of a magnet. Because 'unlike poles attract', the location we call "Magnetic North" has a south magnetic polarity.
Magnetic north is negative and magnetic south is positive. The resulting magnetic field lines go from north to south. Mnemonic: north = negative.AnswerThe terms, 'positive' and 'negative', are generally applied to electric charges, not to magnetic poles. Having said that, 'magnetic therapists' use the terms 'positive' and 'negative' when referring to magnetic poles -however, their knowledge of magnetism appears very shaky!Magnetic poles are normally identified as 'north' and 'south'. The 'direction' of a magnetic field, by convention, is the direction in which a compass needle would point when placed within that field -that is, from north to south.
This is a really confusing question, but I believe you want to know how the magnetic domain at the north pole of a magnet is. The answer is uniform.
This is a really confusing question, but I believe you want to know how the magnetic domain at the north pole of a magnet is. The answer is uniform.
POLES
They are called "domains. The collected domains form the "north" and "south" poles of a magnet, and create a magnetic field (with a magnetic flux) around the collection of atoms.
They are called "domains. The collected domains form the "north" and "south" poles of a magnet, and create a magnetic field (with a magnetic flux) around the collection of atoms.
this is because the concentration of domains is greater at poles as compared to inside of magnet
domains
Magnets are made from a rock called magnetite. For example we will take a bar magnet it is made up of tiny bar magnets, they are called magnetic domains. Magnetic domains only exist in special kinds of metals such as iron, nickel and cobalt. Other metals like aluminium or copper don't have magnetic domains. Magnets have south poles and north poles. For example a south pole will only attract a north pole of another magnet and a south pole will repel the south pole of another magnet. The science of this is that like poles repel and unlike poles attract. The earth is a complete magnet and is the largest magnet in the world. It is complete with a north pole and a south pole.
Within a magnet, the separate poles are composed of domains, regions where the individual atoms are aligned with parallel magnetic moments.
North and south poles.
North and South Poles
At the magnet's north and south poles.