Conductors and insulators are materials that different in their ability to allow the flow of electric current. Here's a detailed comparison:
Conductors
Definition: Materials that allow the free flow of electric current.
Characteristics:
High Electrical Conductivity: Electrons move freely through the material.
Examples: Metals like copper, silver, aluminum, and gold. Other examples include graphite and solutions of salts.
Applications: Used in electrical wiring, components, and circuits due to their ability to conduct electricity efficiently.
Thermal Conductivity: Often, good electrical conductors are also good thermal conductors.
Insulators
Definition: Materials that resist the flow of electric current.
Characteristics:
Low Electrical Conductivity: Electrons do not move freely through the material.
Examples: Rubber, glass, plastic, wood, and ceramics.
Applications: Used to protect against unwanted flow of electricity, such as in coating for wires, insulating supports for electrical components, and housing for electronic devices.
Thermal Conductivity: Generally, insulators are also poor thermal conductors.
top of page
Explore & Learn
Search, Explore, Share & Discuss your passionate topics.
No posts published in this language yet
Once posts are published, you’ll see them here.
Advance Group
Primary Group
Common
Team Members
To test this feature, visit your live site.
Conductors and Insulators
Conductors and Insulators
3 comments
Comments (3)
bottom of page
Why are insulators important in electrical circuits?
What is the role of free electrons in electrical conductivity?
How can you test if a material is a conductor or an insulator?
What are some practical applications of conductors and insulators in everyday life?
How do temperature changes affect the conductivity of materials?
if i were to give an insulator a sea of electrons by doing static or magnetic rub will the insulator conduct then ?
How does the structure of a conductor differ from that of an insulator?