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The Charge Sheath Vortex 

- A Self Organised Structure for the Tornado 

Don't dismiss this theory on the grounds that the electromagnetic field
produced by a moving charge is many times smaller than the electrostatic
forces produced by the same charge. Or calculate on the basis of large
point charges. In a gas, the forces apply to a single molecule or a single
electron. There is no aggregation of charge. Read right through, and
assess whether this theory accounts for the points made by observation of
tornadoes.

This theory proposes that the tornado forms from the rotation (round a
vertical axis) of a large volume of cloud which carries an electrical
charge.

Such rotation has been measured in many clouds using doplar radar, and the
rotation of clouds prior to the formation of tornadoes has been filmed.

The electrons that give such a cloud a charge are attached to molecules of
N2 or O2 or water vapour. Only a small proprtion of these air molecules
will carry this excess charge. The majority of molecules will be
electrically neutral.

The molecules in a cloud of gas are moving randomly in all directions in
proportion to their temperature, and near collisions between these
molecules give rise to the gas pressure. The charge particles will
similarly be carried in all directions. In a rotating cloud, there is an
overall flow of these molecules in the direction of rotation, which is the
net flow of this random movement of molecules in the direction of
rotating. We cannot therefore consider the effects produced by these
molecules, as being molecules moving in parallel - because they are not.
We can compare the net result of these molecules random movements against
the net results of the random movements of all the molecules in the cloud.

This theory is based on the following forces: Each moving charge will
create an electromagnetic field round itself. The sum of the magnetic
field produced by the random movements in the direction of rotation will
produce a solenoidal magnetic field round the vertical axis of rotation.

The electrostatic charge on each charged molecule will repel others, but
in a large charge cloud this will be approximately the same in all
directions. Electrostatic charge between charged molecules can cause
increased separation of these molecules - an electrostatic pressure - that
opposes the surrounding air pressure. This electrostatic pressure causes a
slight decrease in density in the the charge cloud, but it is otherwise
stable. The electrostatic pressure can be balanced by the air pressure, so
that the charge cloud does not fly apart under mutual repulsion of charge.

In a cloud that has an electrostatic gradient, neutral molecules form
dipoles that experience a force that attracts them towards a point of
increased charge.

Development of these forces within a rotating charged cloud.

Assume the cloud is initially rotating round a vertical axis, and the
excess charge is uniformly distributed.

The electrostatic pressure is the same in all directions, and has not net
force on a charged particle.

The net flow of the charged particles round the vertical axis will produce
a small electromagnetic field shaped as a solenoid round the vertical
axis.

As charged molecules follow their random paths in this circulation, there
will be a small net force inwards as they move through the electromagnetic
field of the solenoid.

This small net force inwards will result in a small increase in pressure
inwards.

As molecules collide in this circulation, there will be a small inwards
force on the charge, pushing the charge inwards.

These small forces will result in the transfer inwards of a small amount
of rotational energy from the kinetic movement of these molecules. This
will be observed as a small acceleration of the rotational velocity of the
charge cloud towards the center of rotation, through conservation of
rotational energy.  Continued development of the rotating charge cloud.

Charge is now slightly greater towards the centre of rotation.

Electrostatic pressure is now greater towards the centre of rotation, but
as these molecules move further apart through electrostatic pressure, the
kinetic component of air pressure reduces to match: The net pressure
forces on these molecules remains the same.

The increased net flow of the charged particles round the vertical axis
produces an increased electromagnetic field.

The increased density of charged particles in the faster circulation
produces an increased electromagnetic field.

Two new forces now come into play:

The aerodynamic forces at work in a faster moving airflow reduce its
internal pressure.

The increase in charge towards the centre of rotation now results in an
electrostatic charge gradient from the centre outwards. The neutral
molecules in the rotating cloud now form dipoles that experience a net
attraction towards the center. These now contribute to the inwards force
and the transfer of rotational energy inwards.

Positive feedback results in increased electromagnetic fields, increased
charge transfer inwards, increased rotational velocity of a smaller core.
Equilibrium state for the rotating cloud.

The maximum charge density that can be sustained by this mechanism is when
the electrostatic pressure in the rotating vortex is matched by the
external air pressure.

The vortex sheath can still grow in thickness as more charge molecules are
added to it. Electrostatic pressure will be reduced in a fast moving
charge cloud for the same reason that air pressure is reduced in a fast
moving air flow - the same forces are involved.

The maximum charge gradient in the charge cloud that can be sustained is
when the electromagnetic force pushing the charge inwards is matched by
the electrostatic force pushing the charge outwards.  Electron cascade

This central vortex is still too weak, and lacks the coherency that I
think we are observing in the tornado's vortex tube.

I am proposing that another mechanism is involved as the electron density
increases in the rotating centre of the cloud.

As charged molecules collide in the rotating airstream some electrons are
knocked free, and in the magnetic field of the solenoid of the rotating
cloud, these electrons will continue to travel in the same direction
before colliding with another air molecule.

These free electrons travel briefly at speeds closer to 1000000 m/s. A
cascade of free electrons produces an electromagnetic field that
contributes to the soleoidal field of the vortex tube and intensifies it.

The electromagnetic field now produced by the rotating sheath is now
sufficient to hold all the electrons against the repulsion that would be
expected if the average rotational speed of the electrons was the same as
the airflow.

The vortex tube is maintained by the inflow of electrons from the rotating
charged cloud above The vortex tube.

The vortex tube created should be the same charge as the charge cloud that
produced it.

It should be rotating in the same direction as the charge cloud.

The high charge in the vortex tube is held in place - from flying outwards
by the electromagnetic field it creates, and air pressure, and
hydrodynamic forces which create a stable vortex.

The centre of the tube is kept open:

because the electromagnetic field produced by opposite walls of the tube
oppose each other, this prevents the tube from collapsing.

centrifugal forces.


This theory has proposed that the tornado tube is highly electrostatically
charged, and the opposing aerodynamic forces, electrostatic forces and
electromagnetic field, together produce a vortex tube with considerable
shear strength. The charged vortex sheath bites into the ground rather
like a hole cutter. A tubular narrow blade rotating at high speed moving
over the ground surface.  Because the electromagnetic field is solenoidal,
it can be intense inside the tube, but very small outside the tube. To
measure it you need instruments underneath the vortex path itself.

The result is a turbulence vortex of dust and air rising, surrounding the
charged sheath vortex of the tornado at its centre.

The Anatomy of a Large Tornado

When we watch a large tornado, what we see is the rising turbulence vortex
of dust and debris, but at its core it is powered by a charged sheath
vortex of extreme ferocity and strength. From
http://www.kwtv.com/wx/wxcenter.htm is tornado2.mov(389K) A or
tornado2.mov from cache A huge tornado, but most of what we can see are
hanging plumes of ejected material, in a gently rising and gently rotating
air stream. The violence of the charged sheath at the core is not visible.

When we examine the debris field after the tornado has passed, the
broadest part is a band of destruction caused by the inflowing winds of
the turbulence vortex, but at the core is a narrow band that has felt the
teeth of the charged sheath itself and the ground surface shows the
striations as the surface was pulled apart. Small debris such as straw can
become entrained in the charged sheath and then behaves as though it was
part of a rigid solid, driving the debris through wood or steel. The
charged sheath can also rip and twist metal structures under the ground
surface protected from any wind, but fully exposed to the violent magnetic
fields at the end of the vortex tube.

You are welcome to join the discussion, but please note that any claims
you make for or against these theories should be backed by scientific
reasoning that can be developed from first principles.

Web www.peter-thomson.co.uk

The Tornado - Severe Weather Systems