How do conductors and insulators behave in an electric field?

They can't carry a current because they don't have any charge carriers. As a result, they can't be conductors, because they can't conduct electricity.In summary, conductors are materials that have free electrons that can move and carry an electrical current when a voltage is applied. Insulators, on the other hand, do not have free electrons and therefore cannot carry a current. Grounding is the process of connecting a conductor to the ground to dissipate excess charge and maintain a stable voltage. The direction of electron flow is from negative to positive, despite the conventional current flow from positive to negative. Induction is the process of creating a temporary flow of electrons in a conductor by placing it in a changing magnetic field. Conduction is the
  • #1
rowkem
51
0
So, I believe I've got the math part down but, I'm having trouble understanding the theory. Can someone briefly explain how conductors work? Grounding? Insulators? Direction of electron flow. Induction? Conduction? Anything else would be great, thanks.
 
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  • #2
You've basically asked for someone to write the equivalent of a significant portion of a chapter in an introductory physics textbook. You'll be more likely to get responses if you ask more focused questions. Try taking a specific example or situation from electrostatics and describing what you don't understand about it.
 
  • #3
Conductors work because metals have some electrons that are so loosely bound to atoms that they hop from one atom to another, wandering around randomly. As soon as someone applies the positive and negative poles that we call a voltage, the electrons will begin moving systematically in one direction instead of randomly. The electrons will be repelled by the negative pole and attracted by the positive pole.

Insulators work because they happen to be materials don't have any free charges that would be available to begin moving as soon as someone applies a voltage.
 

Related to How do conductors and insulators behave in an electric field?

What is electrostatics?

Electrostatics is a branch of physics that deals with the study of electric charges at rest and their interactions with each other.

What is the difference between electrostatics and electrodynamics?

Electrostatics focuses on the static behavior of electric charges, while electrodynamics studies the dynamic behavior of electric charges in motion.

What is Coulomb's law?

Coulomb's law states that the force between two point charges is directly proportional to the product of the charges and inversely proportional to the square of the distance between them.

What is an electric field?

An electric field is a region in space where an electric charge experiences a force. It is defined as the force per unit charge at a given point in space.

What is the principle of superposition in electrostatics?

The principle of superposition states that the total electric field at a point in space is the vector sum of the individual electric fields produced by each charge present in the system.

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