conductor
A switch is a device that can either be a conductor or an insulator. When the switch is off, it becomes an insulator and resists the flow of electricity.
yes newspaper is a good insulator because it is thick and obsorbs
The insulator in a light bulb prevents us from getting an electric shock.
No no no no no
Styrofoam, along with most other expanded plastics, is a very poor insulator of heat and electricity, thereby making a foam coffee cup a very good insulator.
The opposite of an insulator in physics is a conductor. Conductors allow electrical current to flow easily, while insulators inhibit the flow of current.
The opposite of insulator is conductor.
An insulator is an object that electricity, heat or sound cannot pass through. It is the opposite to conductor.
The opposite of a conductor (conducts electric flow) is a non-conductor, or something that opposes the flow, which would be an insulator.
Electrical insulator
The purpose of a radiator is to transfer heat as quickly as possible. It is pretty much the opposite of an insulator.
The opposite of a conductor (conducts electric flow) is a non-conductor, or something that opposes the flow, which would be an insulator.
A Conductor like copper, conducts current or electricity while an Insulator works just the opposite it doesn't conduct current or electricity.
I'm not sure if you could classify it as a conductor or and insulator. What happens is the laser imparts an electrical charge to the paper where it strikes it. Then the tone which is opposite charged adheres to the locations.
A charged insulator can be neutralized by grounding it, which involves connecting it to the Earth's surface with a conductor. This allows the excess charges to flow away, leaving the insulator with zero net charge. Alternatively, you can also neutralize a charged insulator by introducing an opposite charge to cancel out the excess charges.
When a charged insulator is placed near an uncharged metallic object, the charges in the insulator induce opposite charges in the metallic object through electrostatic induction. This causes the metallic object to become polarized, with one side becoming positively charged and the other side becoming negatively charged. The presence of the insulator affects the behavior of the metallic object by creating an attractive force between the opposite charges, causing the metallic object to be attracted towards the charged insulator.
Insulators - they cannot allow electricity to flow through them as they have no mobile charge carriers present. Insulators - they cannot allow electricity to flow through them as they have no mobile charge carriers present.