If you have an electrical device and you are trying to figure out the answer to the question, is potassium chloride conductive? Well, it turns out that there are a few good reasons.
The first is the ionization energy. The ionization energy is a measure of the energy required to remove the valence electron from an atom. This is estimated to be 419 kJ/mol for potassium. It is also the most important.
There are other reasons, but the most interesting is the fact that potassium chloride is a conductor. A good conductor of electricity is a good conductor of heat.
Potassium is also an ionic compound, which means that its ions are mobile charge carriers. In order to move these ions, a polar molecule must break free from the bonds that hold it to the ionic matrix.
A good ionic solvent is water. Although water is not a very good conductor of electricity, it is a very good insulator. Pure deionized water has a resistance of over 100,000 times the resistance of seawater.
Another good electrical conductor is aqueous potassium chloride. Ions can be easily dissolved in water and the presence of more ions will result in more conductance.
When potassium chloride is dissolved in water, it breaks up into the two main components, potassium and chloride ions. These two ions can easily move through the solution. However, there are some limitations. One of them is that when the ions dissolve, the water molecules get stuck in the ionic matrix.