How active ion attracted to the magnetic field and how that could be applied on reactive chlorine with the atmosphere
Magnetism can be referred to as a feature of material reacting to an applied attractive field. Permanent magnets have an attractive firm ground, which is brought about by ferromagnetism. All materials, especially Ions, are affected by distinctively being near a magnetic field. Some elements are pulled closer to the magnetic field (paramagnetic materials), while others are repelled (diamagnetic materials).
Ions have dipole electrons produced by the electron’s characteristic turn property; hence, there is the production of an electric current. In nuclear science and quantum science, the electron arrangement is the flow of electrons of an element or particle in an atomic or sub-atomic ring road. There is a wide range of attractive structures: including paramagnetism and diamagnetism.
- Paramagnetism; Ions get attracted to a magnet due to their unpaired electrons. The unpaired electrons are drawn in by an attractive field because of their attractive dipole states. I.e., they can easily spin in either direction.
- Diamagnetism; two indistinguishable electrons may take up a similar quantum state simultaneously, the electron turns are arranged in inverse ways. These make the attractive fields of the particles offset; along these lines, there is no net attractive minute, and the molecule can’t be pulled in into an attractive area.
How they could be applied to reactive chlorine with the atmosphere.
Chlorine has distinguishable isotopes that have different reaction points that include melting, and boiling points subjecting these elements to suitable conditions helps in generating electrons that are easily attracted to a magnet hence reducing their adverse effect on the environment.