0
What else can I help you with?
Does electricity move through a conductor or an insulator?
The answer is a little more complex than a neat, pat answer. Electric flow may be seen as forward propagation of electrons, or backwards propagation of positive "holes" which may move through or around a medium, or as the movement of ions through a medium. Depending on the dielectric strength of an insulator, and the voltage/amperage of the charge in question, the electricity may move through, over, or around an insulator.In some cases, an electric current can move easily through both an insulator and a conductor, but in most cases, electricity moves easiest through a conductor. Conductors are usually metals or metalloids that have are joined together through metallic bonding. Metallic bonding results in positive metal ions floating in a sea of electrons. The "delocalized nature" of the electrons (electrons spread out) allows charge to flow easily through a conductor.
Is electric charge moving in uniform motion produce both electric and manetic field?
Electric charge produces an electric field by just sitting there. It doesn't have to move. If it moves, it produces a magnetic field. It doesn't matter how the motion would be described.
What does electricity move through?
Electricity moves through conductive materials such as wires or metals. These materials allow the flow of electric charge, which is the movement of electrons, through them to power electrical devices or circuits. Insulating materials, on the other hand, do not allow electricity to flow through them easily.
Can an electric current be produced by magnetism?
Yes, an electric current can be produced by magnetism through electromagnetic induction. When a magnetic field changes in intensity or moves relative to a wire, it induces an electric current in the wire. This phenomenon is the basis for how generators and transformers work.
In terms of atomic structure of matter what is meant by electric current?
Electrical current is the flow of electrons, so from an atomic structure view, this would mean electrons are moving from one atom to the next; as one moves, it is replaced by another from a previous atom. I don't believe you can make the statement that these are only valence electrons moving, but I could be wrong.
When electricity moves What is it called?
When electricity moves through a conductor, it is called an electric current. This flow of electric charge is what powers electrical devices and systems.
What is the current in electrical terms?
Current, in electrical terms, refers to the flow of electric charge through a conductor. It is measured in amperes (A) and represents the rate at which electric charge moves through a circuit.
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.
When an electric current moves through a long conductor each electron moves?
The free electrons moves through a relatively short distance.
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.
What exactly is current?
Current is the flow of electric charge in a circuit. It is measured in amperes (A) and represents the rate at which electric charge moves through a conductor, such as a wire. Current is essential for transferring energy and powering electrical devices.
When an electric current flows through a long-conductor each free electron moves?
The free electrons moves through a relatively short distance.
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.
When an electric current flows through a long conductor each free electron moves?
When an electric current flows through a long conductor, each free electron moves in a random zig-zag path due to collisions with atoms in the material. This movement constitutes a net flow of charge in the direction of the applied electric field, creating an electric current.
Electric current is induced when?
electric current is induced when a conductor (such as a wire) moves through a magnetic field or when there is a change in the magnetic field surrounding a conductor. This phenomenon is known as electromagnetic induction, discovered by Michael Faraday in the 1830s.
What actually moves when an electric current flow?
In an electric current, electrons are the moving charge carriers. They flow through the electrical conductor, such as a wire, to create the current. The movement of electrons generates the flow of energy that powers electrical devices.
Does electricity move through a conductor or an insulator?
The answer is a little more complex than a neat, pat answer. Electric flow may be seen as forward propagation of electrons, or backwards propagation of positive "holes" which may move through or around a medium, or as the movement of ions through a medium. Depending on the dielectric strength of an insulator, and the voltage/amperage of the charge in question, the electricity may move through, over, or around an insulator.In some cases, an electric current can move easily through both an insulator and a conductor, but in most cases, electricity moves easiest through a conductor. Conductors are usually metals or metalloids that have are joined together through metallic bonding. Metallic bonding results in positive metal ions floating in a sea of electrons. The "delocalized nature" of the electrons (electrons spread out) allows charge to flow easily through a conductor.
