a conductor attracts and an insulator keeps it all together
insulater
A piece of notebook paper is not a conductor it is an insulator
Well, friend, a stove is actually a conductor of heat. When you turn on the stove, the heat transfers from the burner to the pot or pan you're using to cook your delicious creations. It helps to think of the stove as a helpful friend, passing on warmth to make your cooking experience a joy.
No; an insulator by definition does not conduct electricity. We use these to protect ourselves from electricity, like the rubber in rubber gloves. Conductors, in contrast, are good...uh, conductors of electricity.
Slate is primarily an insulator. It is a natural stone composed mainly of clay minerals and has low electrical conductivity, making it unsuitable for conducting electricity. Its insulating properties make it useful in applications like roofing and flooring, where resistance to electrical flow is beneficial.
No it is a conductor
it is a girl
insulater
yes, carpet is a good conductor!
glass is a non conductor
Its a insulater
is a bike tire a insulater or conducter
Potential difference between the ends of a conductor refers to the electrical energy difference per unit charge between two points in the conductor. It is commonly known as voltage and is measured in volts. A potential difference is necessary for the flow of electric current in a conductor.
A piece of notebook paper is not a conductor it is an insulator
A conductor allows the flow of electrical current due to its high conductivity, such as metals. An insulator, on the other hand, inhibits the flow of electrical current due to its high resistance, such as rubber or plastic. Conductors are used to transmit electricity, while insulators are used to prevent the unwanted flow of electricity.
A conductor is any material in which electrons are free to flow, whereas an insulator is any material in which the electrons are tightly bound to the molecules with which they are associated.
Iron is a conductor of electricity. It allows the flow of electric current due to its high number of free electrons that can move easily within the material.