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Electromotive force is the cause that pushes the electric charges to flow through the conductor. Especially electrons flow through the metallic conductors.
An electric current. <<>> The term used for the flow of electrons through a conductor is amperage.
Electricity is the flow of electrons across a conductor. A conductor can be many things, copper is one of the most efficient. Voltage is what moves the electrons. It works like the pressure that pushes water through a hose.
The battery or other power supply does.
Energy does not cause pushes and pulls. These are forces.
The definition of electricity is the flow of charge. Usually our charges will be carried by free-flowing electrons. Negatively-charged electrons are loosely held to atoms of conductive materials. With a little push we can free electrons from atoms and get them to flow in a generally uniform direction. A closed circuit of conductive material provides a path for electrons to continuously flow. The charges are propelled by an electric field. We need a source of electric potential (voltage), which pushes electrons from a point of low potential energy to higher potential energy.
Electromotive force is the cause that pushes the electric charges to flow through the conductor. Especially electrons flow through the metallic conductors.
current i think just ask you bro
An electric current. <<>> The term used for the flow of electrons through a conductor is amperage.
Electricity is the flow of electrons across a conductor. A conductor can be many things, copper is one of the most efficient. Voltage is what moves the electrons. It works like the pressure that pushes water through a hose.
Electric current - a movement or flow of electrically charged particles, typically measured in amperes.In a conductor, current flow is via a drift of free electrons in the metal. the actual drift rate may be slow, the electric field that drives them itself propagates at close to the speed of light, enabling electrical signals to pass rapidly along wires.See related link belowElectricity can flow through a conductor because it allows the electrons to move freely through the object. With an insulator, electrons cannot move.
Strictly speaking, its ability to carry electrical charge from one place to another. Most metals, like copper, have several electrons available in their outermost shells that are easily "pursuaded" to accept and release electrons along a specific path, like a wire. The more easily they do this the better conductor they are. So, when you apply an "electromotive force" like the voltage difference of a battery, it basically pushes electrons in one end of the wire and pulls them out the other (which, incidentally is an exothermic process, so the wire and battery feel warm).
pushes and pulls are things you do when energy is applied
it pushes and pulls the electrons through the circuit
The battery or other power supply does.
The AC current tend to flow on the surface of the conductor. The higher the frequency, the thinner the skin. This is known as the skin effect. So DC current flow throught the entire conductor but when the signal varies (AC) there is the formation of eddy current in the conductor itself and that pushes the electrons at the surface of the conductor. You can get more information on the skin effect and skin depth on wikipedia : http://en.wikipedia.org/wiki/Skin_effect http://en.wikipedia.org/wiki/Skin_depth
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