What is Conduciveness? Definition, Examples, and Applications

Conduciveness refers to the ability of a substance or material to conduct electricity or heat. In other words, it is the measure of how easily electric charge or heat can flow through a substance.
Conductive materials have a high degree of conduciveness and allow electricity or heat to flow through them with minimal resistance. Examples of conductive materials include copper, silver, and gold. These materials have a high number of free electrons that are able to move freely within the material, allowing for easy transfer of electricity or heat.
On the other hand, non-conductive materials have a low degree of conduciveness and resist the flow of electricity or heat. Examples of non-conductive materials include rubber, wood, and plastic. These materials have few free electrons and do not allow for easy transfer of electricity or heat.
Conduciveness is an important property in many applications, such as electronics, heating systems, and energy storage devices. It is also an important factor in determining the safety and performance of electrical systems and devices.