Force is the cause of movement. Electrons can be moved by gravitational force F= GmM/r^2 and electric force produced by the Electromagnetic fields, F=eE and F= evB= e(-v.B + vxB).
dispersion force
how is the movement of electrons in a conductor related to the formation of a magnetic field
electrons
The motion of electrons is called elecricity. Electricity is used to represent the liberated out put by the movement of electrons.
monkey joe
The "impedance" of a circuit slows down the movement of electrons. This can be resistive, reactive or a combination of both.
the key or switch
The photo-electric effect is the ability of light to cause the movement of electrons, which is called an electric current.
No. The movement of electrons is what causes electricity, and neutrons take no part in it.
The movement of electrons is electrical energy.
An electric current is movement of electrons, no matter the source or cause.
Electric energy requires the movement of electrons.
Electricity is the movement of electrons between atoms. It is inexorably linked to magnetism (and light) - moving electrons create a magnetic field and a magnetic field will cause electrons to move in a conductor and when electrons lose energy light is created.
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
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.