Draw some field lines.
Use F=qvxB=IlxB to see how the 2 magnets interact.
When the opposite poles of two bar magnets are facing each other, they will attract. When magnets have the same pole facing each other, they will repel.
When two magnets with like poles (either both north or both south) are placed next to each other, they will repel each other. This repulsion occurs because the magnetic fields of the like poles push against each other, creating a force that keeps the magnets apart. As a result, the magnets will tend to move away from one another rather than attract.
They would get mixed up and would become non-magnetic.
When the poles of two magnets are brought close together, they can either attract or repel each other depending on their alignment. Opposite poles (north and south) attract, pulling the magnets together, while like poles (north and north or south and south) repel, pushing the magnets apart. This interaction is a fundamental principle of magnetism and is governed by the magnetic field generated by each magnet.
When the magnetic fields of two or more magnets overlap, they either reinforce each other (attraction) or cancel each other out (repulsion), depending on their alignment and orientation. This interaction is described by the laws of magnetism, where opposite poles attract and like poles repel each other.
The two magnets would repell each other.
When the opposite poles of two bar magnets are facing each other, they will attract. When magnets have the same pole facing each other, they will repel.
they will not magntize together
there would be no magnetation
If lines were not perpendicular,they would either be intersecting or parrallel.
it reflects
perpendicular lines are a special type of intersecting line that happen to intersect at 90 degree angles
bad bad things...
Stoped rotating. A day would take a year. Perpendicular. There would be no seasons.
When two magnets with like poles (either both north or both south) are placed next to each other, they will repel each other. This repulsion occurs because the magnetic fields of the like poles push against each other, creating a force that keeps the magnets apart. As a result, the magnets will tend to move away from one another rather than attract.
Light will bend toward the normal, or perpendicular line, when passing from a less dense to a denser material. This is known as refraction.
Can happen if tangent line is perpendicular to normal line.