As a magnetic field moves through a coil (or vice versa), electron energy flows and is conducted and mediated by the coil, the electron energy is transmuted in energy form "from" the coil provided the means, and simultaneously the energy of the magnetic field subject to universal forces of energy equilibriums* catalyze a transmutation of the magnetic field energy wave forms into an electron (pulse) of an electron accepting atom of the coil.
- Patrick A. Cameron (NZ)
patrickcameron@hotmail.com
* ( including vectorized sub-atomic energy frequency harmonics and sub-atomic energy polarity field intersection/containment points )
I found an old platinum ring in a car park, cut it and beat a section into two strips of foil approx 100mmX2mmX0.3mm. Just holding these under the water tap connected to a multimeter shows one tenth of a volt. Still water is not so good, the voltage drops very quickly. Greater surface area greater voltage I guess. At a microscopic level I guess the catalyst is turning water to Oxygen and Hydrogen and giving off electrons.
A magnetic field
No, this will stop the magnet from functioning and is the same as using a short thick wire instead of a long coiled wire.
No. A coiled wire can never become an electric bell without some more piecesand parts. When you have those, however, assembled in the right way, it's truethat passing an electric current through the coiled wire will cause the bell to ring.
Electrons move inside thermionic tubes, inside transistors and diodes, along conductive wires and in metals in general. Electrons are associated with some cell activities, some ionic conduction in conductive liquids, and plasmas, arcs and sparks.
A copper wire coil is rotated at speed in a magnetic field, to cause electrons to move. This is the electric current. The stronger the magnets and/or thicker the copper coil, the more current is produced
The electrical charge that moves through a wire is in the form of negatively charged electrons. The movement of electrons in a circuit is called current. Electrons in a current are repelled from the negative end of the circuit and attracted to the positive end of the circuit.
Electrical
an AC, or alternating current
Electric current is the movement of electrons through a conductor.
Coils of wire and a magnet. When magnetic lines of force move across a wire, it causes electrons in the wire to move. Those moving electrons are electrical current. In a generator, either the magnet or the coils of wire spin.
Movement of electrons predominantly in one direction.
No, only the outer electrons of the metal atoms.
I suspect that it is because a coiled wire becomes an electro-magnet which disipates and uses energy, and is therefore not recognized as a short.
A net force acts on the electrons in the copper wire ...the electrons move depending on the direction of magnetic field and the motion of the wire and henc e there will be a current in the wire
Electrons move through the wire
No, this will stop the magnet from functioning and is the same as using a short thick wire instead of a long coiled wire.
wire
You can order either the coiled or straight. The straight is 10 feet and the coiled is 1.2 - 3.0 m (3.9 ft - 9.8 ft) Coiled, OFC litz wire I don't understand the second question.