haha no that sounds kinda silly lol
Yes, graphite is an electrical conductor.
its a type of conductor that carries electric power
It is a conductor, it conducts the electric current generated to the load that is being supplied with power.
Plastic wrapped around the wire is insulator. Not a conductor. That is why it is wrapped around the conductor wire.
because it is not where electric not pass through
When an electric charge moves through a conductor, an electric current is generated in the conductor. The flow of electrons creates a flow of current in the conductor, which is the movement of electric charge through the material.
Inside a conductor, the electric charges are free to move and redistribute themselves to cancel out any external electric field. This results in no net electric field inside the conductor.
The electric field inside a hollow conductor is zero.
The flow of electric charge through a conductor is called electric current.
your skin
A conductor (of electricity)Electric conductor
Yes, graphite is an electrical conductor.
the metal that serves as the best conductor of electric charge is the METAL
Yes, a MOVING magnetic field will cause electric current to flow in a conductor. Conversely an electric current flowing in a conductor will cause a magnetic field.
In a conductor, the distribution of charges affects the electric potential. Charges tend to distribute themselves evenly on the surface of a conductor, creating a uniform electric potential throughout. This means that the electric potential is the same at all points on the surface of the conductor.
The electric field inside a conductor is zero because any electric field that is present will cause the charges inside the conductor to move until they distribute themselves in such a way that cancels out the electric field. This redistribution of charges ensures that the net electric field inside the conductor is zero in equilibrium.
Under electrostatic conditions, there is no electric field inside a solid conductor because the free electrons in the conductor redistribute themselves to cancel out any external electric field, resulting in a net electric field of zero inside the conductor.