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An electron moves through a conductor when an electric field is applied, which exerts a force on the electron causing it to drift in the direction of the field. This motion leads to the flow of electrical current. The presence of lattice vibrations in the conductor also affects the electron's movement by scattering it, leading to resistance.
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What is present in a conductor when an electrical charge moves through it?
In a conductor, free electrons are present that can move when an electrical charge is applied. These free electrons are responsible for the flow of current through the conductor.
What force is required to cause electrons to move through a conductor?
To cause electrons to move through a conductor, an electric field is required. This field creates a force that pushes the electrons along the conductor. The strength of the force is determined by the voltage applied across the conductor.
What actually causes the electrons to move?
Electron movement is primarily caused by an electric field. When a voltage is applied across a conductor, such as a wire, the electric field pushes the free electrons in the conductor to move in a particular direction, creating an electric current.
Why does a conductor allow to move easily through it?
A conductor allows charges to move easily through it because it has free electrons that are able to move in response to an applied electric field. These free electrons are not tightly bound to atoms, so they can flow through the material, carrying electric charge with them.
What types of energy move through a conductor?
In a conductor, electrical energy in the form of electrons moves, creating an electric current. This current produces both magnetic and heat energy as the electrons flow through the conductor.
How is conductor different from insulator?
A conductor has a free electron to which current can pass through
What is an electron current?
the flow of electrons through a conductor
What is electron current?
the flow of electrons through a conductor
What particle is responsible for electricity?
Electrons are the particles responsible for carrying electricity. When electrons move through a conductor, such as a wire, they create an electric current.
When an electric current flows through a long conductor does each electron move back an d forth between the ends of the conductor?
A: Electrons move from a positive terminal to a less positive terminal at very hi speed it will reverse the motion if the polarity of the sources changes.
Allows electrons to move through it easily?
A conductor
Why does current flow through a conductor explain?
The valence band electrons in a conductor are free to drift as an electron gas filling the conductor, in response to an electrical field imposed across the conductor/
What happens to the electrons in a conductor when there is a potential difference between the conductor's ends?
The free electrons in a conductor will, when a difference of potential (voltage) is applied at its ends, participate in electron current flow (or just current, if you prefer). The voltage applied to the conductor will drive current through the conductor, and the free electrons will support current flow. These electrons will actually move through the conductor. As electrons are driven into one end of the conductor, the free electrons "shift over" and electrons stream out the other end of the conductor. This is the essence of current flow in conductors.
Is a conductor a kind of matter electrons can move through?
Yes it is.
Can heat move easily through a good thermal conductor?
Yes, that is what "good thermal conductor" means.
What do you call the movement of electrons through a conductor?
Electron flow; also known as electrical current.
Is it true that when an electric current flows through a long conductor each free electron moves through a relatively short distance?
It is not true that when electric current flows through a long conductor each electron moves through a relative short distance because electric current is the continues flow of electrons.
