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Electrons will travel farther distances at a lower voltage.
yes
A battery contains a charge of electrons. When these electrons leave the battery and travel through a circuit that is described as current.
It's kinda like a fire if there is nothing to burn the fire wont go there, so with electrons if there is nothing to travel in to (like a switch, a light bulb, a buzzer ect.) the electrons wont go there because they can't just travel through air like fire can't just travel through air.
insulator...as opposed to a conductor which does allow electrons to travel freely within it.
Electricity is not the same as electric light. Electricity is the flow of electrons from one atom to the next. As electrons travel through the filament of a light bulb the resistance of the filament opposes the flow of current, which creates heat. The filament will heat up so much that it produces a visible light.
Electricity is not the same as electric light. Electricity is the flow of electrons from one atom to the next. As electrons travel through the filament of a light bulb the resistance of the filament opposes the flow of current, which creates heat. The filament will heat up so much that it produces a visible light.
Electrons, that make up an Electric Current move at the Speed of Light.Further CommentAlthough electrons move rapidly, their movement is quite chaotic. But the actual drift of electrons along a conductor -i.e. current- is V-E-R-Y slow. So slow, in fact, that an individual electron, flowing through a flashlight bulb's filament, is unlikely to travel the length of that filament during the lifetime of its battery,
Electrons will travel farther distances at a lower voltage.
Through ions or electrons.
yes
Generally speaking, a material that does not let electrons travel through it, a material that has a very high resistance to electron flow (electric current), is called an insulator.
Nothing happens, because it's impossible.
it works with a circuit.these tiny microscopic molecules travel through the wire. the filament, a very thin metal lets the molecules travel through, but at a much slower pace. this then causes it to burn and light the bulb up.
Electricity can travel throughout freely moving Electrons, like in metal which is in wires under the rubber.
A battery contains a charge of electrons. When these electrons leave the battery and travel through a circuit that is described as current.
Yes, since metal plate or any other types of metals have free electrons they can absorb radiowaves since radiowaves travel through free electrons.