Voltage is responsible to flow the current in a circuit. Voltage is also known as potential difference or electric pressure. When there is a potential difference across a conductive circuit current starts flow from the higher potential to lower potential.
The current between two points in a circuit is driven by the voltage difference, or potential difference, between those two points. This is known as Ohm's Law, which states that the current through a conductor between two points is directly proportional to the voltage across the two points, and inversely proportional to the resistance between them. In other words, if the voltage difference between two points in a circuit increases, the current through that circuit will also increase, as long as the resistance remains constant. Conversely, if the voltage difference decreases, the current will decrease as well, assuming the resistance remains the same.
Voltage Difference: When there is a difference in electric potential (voltage) between two points in a circuit, it creates an electric field. Electrons, which are negatively charged, naturally move from areas of high potential (positive voltage) to areas of low potential (negative voltage).
Electric Field: The electric field exerts a force on the electrons, causing them to move. It's important to note that the electrons themselves don't travel very fast; it's the propagation of the electric field that causes a "push" effect, leading to a continuous flow of electrons.
Conductive Pathway: The electrons move through a conductive pathway, such as a metal wire. In this process, electrons flow from the negative terminal of a voltage source (e.g., a battery) toward the positive terminal.
Completion of Circuit: The circuit must be complete for the current to flow continuously. This means the conductive pathway forms a closed loop, allowing electrons to flow from the source, through the connected components (such as resistors, bulbs, or other devices), and back to the source.
Whenever a current is flowing, a voltage must be present. Voltage is sometimes described as an electrical pressure, the force that drives current through the circuit, just as water pressure drives water around a circulating pipe. In electrical terms, a voltage is actually the difference in electric charge at two points in a circuit.
For further information please see the below site that this was copied from:
http://www.learnabout-electronics.org/resistors_17.php
Voltage is the cause and current is the effect. The voltage between two points is equal to the electrical potential difference between those points. It is actually the electromotive force (emf), responsible for the movement of electrons (electric current) through a circuit. more smartopt.org
Voltage! Cheaterz No it is called electric potential
Voltage drives the current between two points in a circuit
The flow of current through the electron!
Voltage.
That force is called an 'electric current'.
Electromotive force is the cause that pushes the electric charges to flow through the conductor. Especially electrons flow through the metallic conductors.
Well plastic is a insulator which causes the electrons (also known as electricity) to stay in place. So wires are electrical conductors which means electrons to flow through it and since humans are "fair" electrical conductors it will cause us to get shocked from the electrical charges. Understand? :)
Yes, good conductors can cause fires. This is because they have valence electrons which will help move the fire to the other sources.
Conductors have a different molecular structure than wood and nonconductors do. For example, the atoms in copper allow electrons to "flow" through the protons and neutrons like a liquid. Wood, however, uses less complex molecules in its structure, such as carbon.
Driving through a cow pasture.
Spin causes electrons to exhibit magnetism.
Both are metals, and metals are great conductors, thats why copper and aluminum are very good conductors causing to that they are made and are metals. Just did my homework on this from another website this is 100% correct! Cya people, Christopher :)
Electrical conductors (wires) are primarily made of copper or aluminum. All metals will conduct current. Conductors are elements that have 1 or 2 electrons in the outer (valance) shell of their atoms. These electrons are loosely held or are already floating around in the crystalline lattice of the material. When a voltage is applied to a conductor, these electrons move from negative to positive, since electrons have a negative charge (like charges repel, unlike charges attract).
it causes a magnet to spin and generate electricity through the aligning of the electrons in surrounding atoms
An electric field causes electrons to flow when a switch is turned on.