The size of the conductor is in direct relation ship to its rating capacity of carrying a current. The larger the diameter of the conductor the larger the amperage rating capacity of the conductor.
Thin wires have higher resistance to electron flow compared to thicker wires due to increased resistance caused by the smaller cross-sectional area of thin wires. Thicker wires have lower resistance because they offer less resistance to electron flow with their larger cross-sectional area.
The size of the wire directly affects the electrical resistance. Thicker wires have lower resistance compared to thinner wires, as there is more space for electrons to flow through, reducing the resistance. Conversely, thinner wires have higher resistance due to smaller pathways for electron movement.
Thin wires have a greater resistance rhan thick wires. Imagine a straw. The thinner the straw. the less liquid can get through. Wires work the same way.
Yes, the thickness of a wire, also known as its gauge, does indeed affect the flow of current. Thicker wires have lower electrical resistance, allowing more current to flow through them compared to thinner wires of the same material. Thinner wires will have higher resistance, which can create heat and reduce the amount of current flowing through them.
No, it is an insulator because it DOES NOT allow the flow of electrons.
Electricity does not flow wires into your home, wires direct the flow of current into your home.
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.
Electrons flow in wires.
1.6x10^19 amperes is the amount of current that a flow of an electron will contain.
When discussing electrical current, DC stands for Direct Current (a current where the electron flow in the wires goes only one way)
current flow in wire means electron move.when is conduct the electron move for the first positive cycle from 180 phase.then for negative half cycle it will move backward it means electron stay its position on both cycle just external force is applied to make the device operate and electron which are in wire.
You can slow down electron flow by increasing resistance in the circuit, using resistors for example. By increasing the obstruction to electron flow, you reduce the rate at which electrons can move through the circuit. Additionally, lowering the voltage in the circuit will also slow down electron flow.