I'm not entirely sure in what context you're asking this in, and the answer could vary slightly.
But the basic, simple answer is heat. This isn't EXACTLY accurate to say, but basically heat causes the particles in a given sample to move faster when heated, due to the higher amounts of energy. Heat is actually defined by the vibration of particles in a substance.
Flow of current.
Electricity flow through a wire as a result of the movement of electrons and hols.
The movement of electrons is electrical energy.
Electric energy requires the movement of electrons.
Any permanent magnet has electrons moving in it in some uniform way. All permanent magnets have a "uniform net movement" of electrons. Let's look just a bit more closely. Electrons move around atomic nuclei, but if we get the right material and "align" or "coordinate" the movement of the electrons around atoms, magnetic domains will be set up. These will "link" and a permanent magnet will result.
Energy is the movement of electrons, this is hard to wrap your head around, but that is what energy is.
how is the movement of electrons in a conductor related to the formation of a magnetic field
Both conduction and induction involve a movement of electrons. Conduction is the transfer of electrons from a charged object to another object by direct contact. Induction does not involve direct contact. Instead, induction is the movement of electrons from one part of an object to another as a result of the electric field of the second object.
electrons
Electricity if the movement of electrons in matter, or positrons in antimatter.
The motion of electrons is called elecricity. Electricity is used to represent the liberated out put by the movement of electrons.
The movement of electrons around the nucleus has been described as orbits ( Bohr molecule) probability cloud (Schroedinger model), electrons being in orbitals
It is electricity (or electrical energy) that we find is used in homes, and it is produced by the movement of electrons.