The difference between a conductor and an insulator lies in their ability to conduct electricity:
Conductor:
A conductor is a material that allows electric charges (electrons) to move freely through it. This means that when a voltage is applied across a conductor, electric current can flow easily from one point to another. Conductors typically have a large number of free electrons in their atomic structure, which are responsible for carrying the electric charge. Metals, such as copper and aluminum, are excellent conductors of electricity and are commonly used in electrical wiring and circuits.
Insulator:
An insulator, on the other hand, is a material that does not allow electric charges to move through it easily. Insulators have very few free electrons, making it difficult for electric current to flow. When a voltage is applied across an insulator, the electrons are not able to move through the material, and thus, no significant current flows. Materials like rubber, plastic, glass, and wood are examples of insulators. Insulators are commonly used to provide electrical safety and to prevent unwanted current flow between conductors.
In summary, conductors facilitate the flow of electric charges, allowing electric current to pass through easily, while insulators inhibit the flow of electric charges, effectively preventing the passage of electric current. The distinction between conductors and insulators is essential for designing and understanding electrical circuits and applications.