Electric charges can travel through solids, liquids, or gases. They can travel through conductors, insulators, and semiconductors.
Electric charges can travel through solids, liquids, or gases. They can travel through conductors, insulators, and semiconductors.
A voltage.
There are two types of charges: positive charges and negative charges. Positive charges are immobile, and are found inside the nuclei of atoms as Protons. Negative charges can be mobile, and have the source of electrons. These orbit the nuclei of atoms, and can be stripped from the atoms to be used as mobile charged through conductors, such as electricity moving through wires.
Electric current flows through wires, but to transmit electric power you need two wires with a voltage between them, connected to a power source.
Current is basically, the rate of flow of charges through a conductor or wire. It is commonly denoted by the alphabet I and measured in Amperes. I = ne/t n = no of electrons e = charge on an electron t = time taken for electron to move
electrical conducters are madfrom metal because charges can travel through metal but rubber is a insulator so the charges cant get throught it so wires are covered with rubber for safety reasons so you don't get a shock.
When charges (means charged bodies) move , then we say that an electric current is produced. If charges remain at rest, current is zero. If charge Q moves through a metal in time t , then current I through metal is: I=Q/t; moreever, electric current can also be produced by rate of change of magnetic field through a metal...,
An electrical current - and the energy it carries - can travel through any conductor. Quite often, these conductors will be wires.
Electrical wires have plastic covering as when electric current flows through the copper wires and mistake we hold it so we may get an electric shock.
Through electrical wires.
Electrical wires have plastic covering as when electric current flows through the copper wires and mistake we hold it so we may get an electric shock.
Electromagnet.