When opposite poles meet, they attract each other due to the difference in magnetic orientation. This attraction causes the magnetic fields to interact and align with each other. If they are strong enough, they may snap together in a forceful manner.
They Meet
When both ends of a magnet meet, like poles will repel each other and opposite poles will attract each other. If they are aligned in the same direction, the magnets will stick together due to magnetic attraction. If they are aligned in opposite directions, the magnets will push away from each other due to magnetic repulsion.
The chromosomes move apart, towards the opposite poles.
The homologous chromosomes (as pairs of sister chromatids) separate to opposite poles of the cell.
During anaphase of mitosis or anaphase II of meiosis, the replicated DNA strands move toward opposite poles of the cell. This happens after the sister chromatids are separated and pulled apart by the spindle fibers.
They Meet
at the poles. do you know what happens to a degree of longtudeas you moe towards the poles?
Chromosomes move to opposite poles of the cell.
When both ends of a magnet meet, like poles will repel each other and opposite poles will attract each other. If they are aligned in the same direction, the magnets will stick together due to magnetic attraction. If they are aligned in opposite directions, the magnets will push away from each other due to magnetic repulsion.
The chromosomes move apart, towards the opposite poles.
The homologous chromosomes (as pairs of sister chromatids) separate to opposite poles of the cell.
When opposite poles of a magnet are placed near each other, they attract each other. This attraction is due to the alignment of magnetic field lines between the two poles. The force of attraction between opposite poles is stronger than the force of repulsion between like poles.
The Lines of Longitude all meet at the Poles.
poles
Opposite charges attract each other, meaning they pull together. Similarly, opposite magnetic poles attract each other. This is because there is an attractive force between opposite charges or magnetic poles.
During anaphase of mitosis or anaphase II of meiosis, the replicated DNA strands move toward opposite poles of the cell. This happens after the sister chromatids are separated and pulled apart by the spindle fibers.
Opposite poles of magnets attract each other, meaning the north pole of one magnet will be attracted to the south pole of another magnet. This is due to the alignment of magnetic fields in opposite directions, creating a force of attraction between the poles.