Not if the magnet is symmetrical, and you define 'strength' in terms of flux density.
Yes because it has a stronger attraction rate.
there is no stronger or weaker for a magnet
Put it in thepresenceof a strong magnetic field
When two magnets are brought close to each other and they try to move apart, we say the two magnets each orher
Force
The north poles of magnets repel each other, while the south poles attract each other. This is due to the orientation of the magnetic field lines.
Yes, horseshoe magnets have two poles just like bar magnets - a north pole and a south pole. The poles are located at the ends of the horseshoe shape.
at the poles
The force of a magnet is strongest at the poles, specifically at the magnetic poles where the magnetic field lines converge. Magnets have a north pole and a south pole, and the force is strongest at these regions.
all magnets have two poles
Yes, strong magnets can repel each other when their like poles (north-north or south-south) are facing each other. This repulsion is due to the magnetic forces between the magnets.
magnetic force
coz if you try to attract a weak and a weak side it wont stick. same with the strong and strong side. But if you put a strong side next to a weak side it will attach. When a strong magnet is brought nearby the domains line up more closely with the magnetic field. The result of this reorientation is an overall magnetization of the weaker magnet.
Yes. All magnets of north and south poles. There is no such thing as a magnetic monopole.
The term for the attraction and repulsion between the poles of magnets is magnetic force. This force is responsible for the interaction between magnets as opposite poles attract each other and like poles repel each other.
A magnets pull is strongest at the poles.
Put it in thepresenceof a strong magnetic field
When two magnets are brought close to each other and they try to move apart, we say the two magnets each orher
Poles