Episode Transcript
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Speaker 1 (00:03):
Welcome to Master of Science with host Professor James McCanny.
The good. Professor's career spans fifty years as a university teacher,
scientist and engineer. Each week, he will explore the rapidly
changing world of science as many long held theories are
crumbling under the weight of new data. He will cover
(00:23):
the fields of geology, archaeology, meteorology, oceanography, space science, astronomy, cosmology,
biological evolution, virology, energy, mathematics, and war. So please welcome
the host of Master of Science, James McCanny.
Speaker 2 (00:52):
Good evening, everybody, Welcome again this episode thirty five. I
believe yes, and tonight I want to I want to
make a correction. First of all, last week I talked
about something called a digerie doo, and I talked about
a string with a board on the end of it,
and you whirl it around and it makes a low
(01:15):
humming noise. And actually that particular thing which does the
same thing gives you a low humming noise is called
a bull or so when you get down to some
of these finer points of you know. But anyway, a
(01:35):
digerie doo, by the way, is a horn like device
and it's used all over the world. It can be
used as a musical instrument, it can be used as
a accompaniment to music. It can be used for communication.
But it's a long in fact, they use these in
(01:56):
many places around the world. You will find them, for exams.
Ample in the Swiss Alps, they have a long, long
tube in a blow it and makes a sound and
it's heard. This is the point. It is heard for
miles and miles away. It carries that low frequency carries
through the air, especially if it's dry, so up in
(02:17):
the Swiss mountains where it's cold it's relatively dry, or
in the Australian Outback is another place where they're used,
and the same effect. So now what happens You blow
in this long tube and you get a very low
frequency sound that comes out of a typically constant of
(02:41):
a constant frequency. So it's based on a design and
the same with the bull roarer, which is a flat board.
It can be about this big, it can be in
various shapes depending on the shape. And so what you
do is you put a hole in one end. So
it's a little flat board about this big, and you
put a hole in one end, put a string in
there and you whip it around and by changing the
(03:05):
frequency you can change the sound a little bit. But
these are used and have been used for telecommunications back
in the day when we didn't have but when they
didn't have telephones, and for centuries. So this is a
form of communication. Okay, Why was I talking about this
(03:29):
is because the people who lived around Wardencliffe, the Wardencliffe
Tower in New York where Nikola Tesla set up his
Tesla Wardencliffe Tower, when he would strike it up at night,
and that was his agreement with Westinghouse, is that he
(03:50):
could use power from the Westinghouse grid, which he had
sold all of the components and the design and everything
to Westinghouse so they could generate and sell electricity. And
so the subtle thing that Tesla did in his contract
he says, when it's off peak hours and there's not
a lot of electrical use, I can draw off the
electrical grid and use it for my experiments. That's what
(04:13):
Tesla had in his contract. And by the way, he
sold the rights to his patents and everything to Westinghouse
for around four million dollars. Now today that would be
a hefty sum, but back in those days it was
a really good amount of money. So Tesla went between
(04:34):
being rich and being poverty stricken. He died, of course,
if he died the way we were told. I don't
believe the story that comes down from the intelligent agencies
during World War Two. I've talked about that before. But
getting back to the Wardencliffe Tower, it would develop this
low humming noise. In the last week I talked about
(04:58):
the Wardencliffe Tower developing a frequency of around the driving
frequency of the Tesla coil in the Wardencliffe Tower was
around forty hertz, and of course the big coil would
have been a much higher frequency. But what the people
heard was related to the forty hrt signal approximate forty
(05:24):
hurt signal. It came out, and that's about the frequency
of a dijerie doo or a bull roarer, and so
that sound carries along the ground. Now, when we were kids,
it wasn't very smart idea, but somebody got the bright
idea to put your ear down to the rail. There
were the railroad tracks. There were a couple of railroad
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tracks in the town where I grew up, and you'd
put your ear on net and you could hear the
train coming a long ways away, because the same thing
that low frequency noise coming from the train would carry
along the track. So the point being that, let me
(06:08):
use another example, try and get to the point I'm
trying to make that people can't make this up. They
would see the tower glowing up into the sky. And
this is much like the I talked about the pillars
of Hercules being Krakatoa and its sister volcano in the
(06:30):
Sunda strait between Java and Sumatra as the entrance to Atlantis.
And so people this is you know, it's not like
people can make things up. Another thing that people cannot
make up is smell. Now, people can imagine that they
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heard something. People can imagine that they saw something. People
can even imagine that it gets a little if if
they tasted something. But the thing that they cannot imagine
and create in their mind as a substitute for reality
is smell. And so that is something that for example,
(07:16):
when they're examining cases of people who saw Bigfoot, and
you know which people are like, oh, that's conspiracy theory,
there's no Bigfoot. But then also say people who are abducted,
you know, who were abducted by aliens, for example, and
they put them under hypnosis to see if their story
(07:38):
is consistent or whatever, because then they can access that
subconscious by psychotherapy and put them under hypnosis, and when
they start talking about the smell, both Bigfoot and aliens,
that's what you cannot make up. And so they then
(08:01):
they realized that these people are telling the truth. There
was something there and there's an odor, for example. And
this is consistent with people who were abducted that are
real that when they're under hypnosis, they talk about the
smell and it's something you cannot make up. So then
that gives a lot of credibility to their story. And
(08:21):
the same with Bigfoot. These people that are scared out
of their mind because they saw this creature in the woods.
And I don't know if there's any maybe Bigfoot has
gone extinct, but there used to be stories quite common,
especially up in the northwest, the big forests in the
American Northwest, you know, the Pacific Northwest, of people seeing
(08:44):
Bigfoot and so the Okay, so this is getting this
is getting off track a little bit, but I'm trying
to make a point here that the people who heard
the Wardencliffe Tower, it's low humming noise it makes sense,
and of course they didn't. They couldn't make it up.
It's like when ancients talk about seeing comets and seeing
(09:06):
comets up in the sky and uh, the it's not
like they could make it up where you know, they
have no basis for making things up like this, and
so they talk about the comets and and the effects
that they had, or comets taking the atmosphere and oceans
off of Mars, and various cultures talked about this, and
(09:27):
that's what Belakowski was studying. But because of a large
comet passing by and wh how could they make this up?
Where where's the basis for making this up? Or lightning
bolts coming cr across the sky Zeus, which would be
Jupiter throwing lightning bolts across the sky which people actually saw.
(09:50):
And of course, now with with the work I did,
it explains that or the work that I've done done
relative to understanding Tesla's work. Now we understand why there
was a low frequency hum coming out of the base
part of the Tesla tower that you could hear a
long ways away on a summer night. The people would
(10:10):
hear that humming noise and they would see the bright
lights shining up into the sky above the Tesla Tower. Okay,
so back to digeridoos and bull roars once again. A
digerideo is a long tube and I'm sure there are
other names for that as you go around the world
where they're utilized. And a bull roarer is the flat
(10:35):
piece of board on the end of a string which
you whirl around in a circle fast and it makes
this low frequency noise which would be about not only
is it whirling around on the string, but it's spinning
around at the same time, and that's where that's where
the frequency and it's meeting the air, but it's also
(11:00):
spinning on the end of that string, and so that
gives you and that's where the term bul bulvar comes from. Okay,
And so I wanted to clarify that as a as
related to the Wardencliffe Tower. And that brings me in
(11:21):
now tonight I'm going to continue talking about electric fields,
the vertical electric field, which I talked about last week,
and last week was kind of an introduction. I mentioned
tornadoes and hurricanes and volcanoes. There's another example I'll give
tonight with fires where you have a fire in say
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you're out in the desert. It's a dry desert night,
and you have a fire and this thing gets burning
pretty good. All of a sudden, there's a tornado coming
out of the top of the fire. What's causing that?
One time I was in southern Colorado. The sage brush
was rolling across the tumbleweed, and all of a sudden
(12:06):
there were all of these little they call them dust
doubles dust devils out there. So they're like little whirly
little tornadoes, little cyclonic storms, and they raced across the desert.
And you'll see those on Mars. We know that those
exist on Mars. They're much bigger on Mars. But what
(12:27):
is that? Well, let's look at the Sun. When I
worked with these Russian scientists at the University of Nober's
no Ver Siberis in Russia, they were trying to understand
what caused this. But they had seen tornadoes on the Sun,
and so they were like, what on Earth is going
(12:51):
on here? What on the Sun is going on? And
so that's why they liked my work, is because my
theoretical work explained why there are tornatoes on the surface
of the Sun, and it's due to the vertical electric
field that is outside the Sun. Well, why is there
a vertical electric field on the Sun. It's supposed to
(13:11):
be there, just big ball of gas. Well, no, it's
very electrical, very electrical conditions around the surface of the Sun,
and so tornadoes. You'll see volcanoes where there's just a
tornado coming right out the top of the tornado because
you have this heat coming up and it connects into
(13:32):
the vertical electric field, and all of a sudden, the
up current starts spinning and connects to the vertical electric field.
So you have an ion current coming up out of
the volcano and literally causing a tornado. One of my books,
I Forget that might be the Atlantis to Tesla, The
Covin Connection book has a picture of one of the
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Italian volcanoes from Italy and it has a perfectly blue
sky day and there's a tornado coming right out of
the caldera. Once again, these things are connecting into the
vertical electric field, and so we've seen hurricanes on Mars.
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I have a picture in my weather book, the Principia
Meteorolohia The Physics of Sun Earth Weather. I have a
picture that came from the Hubble Space telescope. They took
a picture of Mars and lo and behold, right there
is a hurricane. It covers about a tenth of the
surface of Mars. Really big hurricane. Well, on Earth, we're
(14:40):
told by meteorologists that hurricanes are caused by warm water. Well,
excuse me, mister Noah Weatherman. There ain't no water on Mars.
And so how does a hurricane form on Mars? Well,
it's that's because hurricanes don't form from warm water. They
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form from electrical current in the vertical electric field, and
Mars has a vertical electric field. Also, it has an ionosphere,
just like Earth, and that's the capacitor between the ionosphere
and the ground. That is the vertical electric field. And
in the atmosphere is a dielectric which is an insulator.
(15:24):
And then when you have conditions like the sea, it
probably started with a dust double And basically a dust
level is a tornado of sand literally, Whereas if you know,
in the temperate climates, we have tornadoes and they have
(15:45):
a lot of water in them because they're associated with thunderstorms.
But in the desert there's no water there. So when
you see a dust level, it is literally that it's
dust and that's probably how the hurricane on Mars formed
is with a dust devil that finally connected and created
(16:07):
enough atmospheric disturbance where you could actually see it. The
clouds in Mars atmosphere, the collection of probably water, enough
water to form a visible hurricane on the surface of Mars. Okay,
So these are all conditions. So now what I want
to do is talk about how these form. Where does
(16:31):
this vertical electric field come from? And Tesla knew about it,
He used it, he was utilizing it. He had equipment
that tapped into it. Colorado Springs Facility did the same
thing Wardencliffe Tower, the little bit different configuration in the equipment,
but they were doing the very same thing. But Tesla
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didn't know where this vertical electric field came from. He
didn't know how extensive it was, how high it was,
where was the end of the atmosphere. Tesla died in
nineteen forty three forty four. I forget or he certainly
went out of commission at that point in time. But
he didn't know about the solar wind. He didn't know
(17:14):
about the Van Allen belts that's around Earth. These electrical
currents of protons and electrons that are in a magnetic
orbit around Earth. That's what the Van Allen Belts are
discovered by James Van Allen, a physicist in the University
of Iowa, and other scientists. Of course, it's one of
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the things we know about now and it's one of
the great radiation hazards in trying to travel outside of
lower th orbit on Earth. The Van Allen Belts begin
anywhere from oh maybe two hundred miles up and then
beyond they go way out and they're variable, I think
(18:01):
on the show I posted in a previous show. It's
like a video. It's like an more like an animation.
But these things grow and shrink, and then when solar
storms hit, those particles can penetrate through our protective magnetic
field and come in and join that Ben Allen belt.
They come in. And what happens is that if you
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have a magnetic field, which Earth does. Earth has a
natural magnetic field and it also has a coupled magnetic
field with these electric currents that are up in the ionosphere,
and so what happens is those high energy particles come
in from the Sun barrier through the protective magnetic field.
It's about thirty five thousand miles out from Earth between
(18:45):
Earth and the Sun, and they come in and they
start spinning around the Earth. They move into these literally
magnetic orbits, and so what happens, it's basic physics. If
you have a magnetic field and a charge particle comes in,
it's a force perpendicular to the velocity and the b
(19:08):
field the magnetic field, and that's the force on the
charge particles. So it basically gets into an orbit. It's
l it's almost like gravity, but it's electrical and magnetic.
And so that's what sustains the Van Allen Belts. And
they're very dangerous because these are relativistic, these are moving,
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these are particles that when they hit meddled. The problem
is here's the whole problem. And the Russian scientists knew this.
Also in the sixties, prior to prior to nas error
doing the Apollo program, the Russians sent three guys to
cosmonauts to the Moon. They didn't land at what point
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was not the land And they told me this that
they had gone around the Moon and came brought these
guys back to Earth and they came back in and
when they landed, they were uh, very dead. They're from
high levels of X ray radiation and they never went back. Yuh,
believe me, the Russians had capability, and it wasn't necessarily
(20:14):
to land on the moon. Landing on the Moon is
a technical, technically very difficult thing to do. Uh. But
after these guys came back, they didn't. They literally they
they told me they said, they never went back. And
they had certainly the capability with the high the high
energy rockets, the uh, the capability of staying in space
(20:38):
for long periods of time. They were staying in space
a year at a time back in the sixties, so
that was not a big deal for them. But they
knew that there was danger out there in those radiation
belts and they s literally never went back because they
didn't know how to, uh, how to mitigate the radiation
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for humans. And of course there's lots of satellites that
go out there that are radiation hardened that do just fine.
You know, that's not the issue. It's the biological life
forms that have a problem. And interestingly enough, after the
the Apollo program, NASSA never went out a lower orbit either. Well,
(21:24):
actually they did, let me tell you a little story.
They did take the Space Shuttle up to it was
generally in lower herbit when they were doing their activities,
and they decided to take the astronauts up into the
Van Allen Belts, the lower edge of the Van Ellen Belts.
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So they start propelling the Space Shuttle up into a
higher orbit, and their eyebrows in the hair, the eyelashes
and eyebrows, and their hair started. Basically, it's an example
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is when you take and you may have seen this,
like a experiment in a high school physics laboratory. They
have the Van Allen or the vandigraph. It's a charge
device that develops a high charge. And they put a
kid up on an insulating chair next to the vandograph
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and he puts his hand on there, and the kid's
hair all sticks out like this because the electricity is
flowing out and electrons are forced away from each other.
So it's like and they have this. If you turn
the lights off in the room, you can see the
hair the electricity coming off their hair. So this is
what happened to the astronauts, the Apollo I'm sorry, not Apollo,
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excuse me, to the Space Shuttle astronauts who are above
low Earth orbit, okay, And so they brought him down
right away, because believe me, that's not a fun experience.
I've I've done that myself, where you stand on a
chair and your hair goes out, and it's it's a
very strange feeling cause you can feed that, you feel
(23:14):
the current going through your body. It's a low current,
but still it's kind of and you n you tell
the people don't take your hand off that cause you'll
get a severe shock. Uh so at any rate. Uh.
But other than that, they really have never ventured beyond
low Earth orbit, which makes you kind of wonder if
(23:35):
there was no big deal about it. Uh. NASA had
a program which I worked around, not in I've never
worked for NASA and wouldn't want to. And uh but anyway,
I don't know if the program's still going on, if
it's being funded, but it was called Living with a Star,
and it was a program at NASA to discover how
(23:58):
to deal mitigate radiation. And so as a physicist, that's
one of the things I pride myself in doing, is
first of all, understanding space radiation, where does it come from?
And then if you know where it comes from, then
you can develop ways to mitigate it. And so I
(24:19):
developed a way of mitigating space radiation. But it's one
of those things that I don't talk about. I've never
divulged that scientific information to anybody because I think there's
a reason for that. I think there's a more than
just a physical scientific reason for the Van Allen Belts
and to for I don't. I'm my personal feeling is
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that mankind is not ready to go into space yet.
Because when we think of going to Mars, or you
think of going to the Moon, or you think of
doing anything in outer space, it's always talked about in
terms of a technological achievement. Can you build equipment, can
you refuel it? Can you do all of these things
relative to going into space. But my belief is that
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you have to have a society, a broad based society,
that is capable of psychologically going into space. In fact,
that's the point of a book that I wrote. It
was published I Forget maybe twenty ten, called the Diamond Principle,
(25:31):
and it's something all my books I talked about. Going
back into the nineties, when I was on radio shows
like with Art Bell or the Coast to Coast or
Alex Merkling or any of these other people where I
was guests going way back on the radio shows, I
would talk about these topics. And so the point of
(25:53):
this book the diamond principle. It's somewhat of a dissertation
man's ability to go into outer space. And so the
point of talking about the diamond principle is that a
diamond has many facets, and so a facet being one
(26:15):
of the faces, one of the cut faces on the
surface of the diamond. And that's because they're crystals. It's
a crystal in structure, and that's where you get these
beautiful diamonds with all the cuts, et cetera. And then
diamond typically internally has fissures and fractures, which gives it
(26:36):
a very specific identity. That's how people identify diamonds is
by their inner internal characteristics. Okay, but back to the
idea of the diamond principle is a dissertation on how
to what the psychological difficulties that man has relative to
(27:02):
going into outer space, not just the technical issues, but
the psychological issues. Is man really ready with his warlike
nature on planet Earth? And it brings up a topic
too that in all my books, going back to the
early books, I have a chapter in all of them
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and it is will man survive? And the question is
a very real one because there are threats from outer space,
not just little asteroids cliding into Earth every now and then. No,
those are not the big problems. The big problems are
the big comets that can come by and cause severe damage.
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I mean change the atmosphere, wipe out change, you know,
build mountains, move the oceans, and those are the big issues.
Those are the ones. Those are the mass extinction issues,
not because here's the deal with asteroids, most of the
energy is absorbed locally. And people talk about this crater
(28:10):
that's in the Yucatan Peninsula. It's really the biggest known
crater due to an asteroid on planet Earth. It's huge,
and it was believed, it was said that due to
s UH physicists studying there's like a layer where there's
(28:32):
a m uh clearly a mass extinction, but they thought
that it wiped out the dinosaurs. And so anyway, that
belief was held for maybe twenty years, but it's no
longer held in the circles where people really know about this.
But they went back and they studied the fauna on
top of the crater. In other words, after the crater
(28:54):
was formed, they went back and looked at the fauna
and the animal life, etc. And it didn't even wipe
out the dinosaurs. Locally, they grew, they were doing just
fine on top of the crater after the impact. And
the end result is that most of the energy is
absorbed locally and it goes up, not outwards. So they
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really have overestimated the damage that would occur due to astroids. Now,
if you get hit with one, or if you're in
the locale, it's not going to be a good day
for you. But like I say, they didn't even the
dinosaurs didn't even die out right there where the crater
is the biggest crater we know of, and so clearly
(29:44):
asteroids can be an issue. But the real big issues
have been with passing large comets, and they would be
in the form of a comet because they're discharging the
solar capacit or another electrical condition in the Solar system. Okay,
so what I'm doing here is I'm rounding out the
(30:05):
conditions in the Solar system. The vertical electric field that
we experience on Earth is due to the electrical nature
of the Sun. That's what drives everything electrically in the
solar system. And for example, the comets are the discharge
(30:25):
of the solar capastor. That's why we have thousands of
planets out in the Kuiper Belt forming because they're discharging
the solar capacitor and that's in a region of dust
and gas that's held back by solar wind pressure. So
these are all if you read my books. This is all.
I'm just giving you a summary here of what's in
(30:48):
my books that I've released to the public. Okay, so
let me jump into now some of these conditions around
Earth and the Sun. In fact, i'll talk a little
bit about the tornadoes on the Sun and how these
form and why they're very similar. And also just to
mention here in my book the Principia meteor Looghia The
(31:12):
Physics of Sun Earth Weather, and this is something I
had mentioned previously, of course, in my work going way back,
was what I call local electrical batteries, and these are
in outer space. Now, when you have plasmic conditions in
outer space, what happens is there's separation of charge and
(31:32):
these create batteries. I'll just give you a simple example.
When the solar wind comes out from the Sun, you
have electrons and protons, and when they hit Earth's magnetic field,
the protons go one way and the electrons go the
other way. It's the same magnet electric particle interaction that
(31:53):
causes the Van Allen belts, but the electrons go one
way and the protons go the other way. And so
what happens that's a separation of charge that creates a battery.
And that's a battery that exists across Earth. And so
now when a solar storm comes out, it'll compress or
magnetic field, it'll compress that battery, and that can trigger
(32:15):
storms all the way down to the surface of Earth.
So that's an example, and there's seventeen of these batteries
around planet Earth, or around Jupiter, or around any of
the planets that have magnetic fields. Venus does not have
a magnetic field, so it has other conditions like X
(32:36):
rays to the sunword side. You can take a picture
of Venus in X rays and see that it's very
hot in X rays on the sunword side because it
does not have a magnetic field. And if we didn't
have our protective magnetic field on Earth, we would be
in big, big trouble. So okay, now, I'm going to
jump into the topic of a vertical electric field and
(33:00):
how these are visible. Now, this is where it's very
appropriate for the general public audiences to These are things
you can see. These are things that you will see
or there's ample evidence of this and videos that are online.
People have taken pictures of them. It's one of the
great things about cell phones is everybody's got a camera.
(33:23):
Hardly anything goes without some events going on. Somebody has
a camera that's taking a picture. And so anyway, okay,
so now'll jump into that. Okay, So just to explain
the physics of these they all work the same, they
all have the same physical properties. And here's what happens.
(33:46):
There is a vertical electric field. Okay, so if you
can start to short that out in a particular point,
and this is what Tesla is doing with his Wardencliff tower.
Just to give you an example of physically what happens
is that he would take in with the changing frequency
(34:07):
of the Tesla tower, that would take the dipoles in
the dielectric of the molecules in the airs atmosphere, and
that would flip them in unison. Okay, Well, the reason
the dielectric works is because the atoms are in air
and they're bouncing around and they're all they're in all
these different directions, and so there's no uniformity to the
(34:33):
direction of the dipoles. A dipole is a pair of
charges plus and minus, and it has an electric field
and it has a direction. And so in air, they're
bouncing around in there in all directions. But if you
can unify them so they're all in one direction and
then they flip in there in another direction, and they
keep doing this, then what happens is all of a sudden,
(34:54):
they're electric fields align and then what happens is it's
like drilling a hole, an electrical hole through the atmosphere.
And if you do that enough, if you can keep
that going, and it takes a lot of power to
do this, then you can eventually get to the point
where you have a path, an electrical path through the
(35:17):
atmosphere to the vertical electric field source which is in
the ionosphere. Okay, and so but you can do this
locally also, and that's what happens with tornadoes or dust devils, hurricanes,
tornadoes coming out the top of a volcano. And what
(35:38):
can help this also is a heat source. And so
if you look at a volcano, there's a heat source,
and what happens there's the column of air rising and
a lot of times there's a lot of ionized air
in that column. Also, what happens in a fire. You
have a campfire out in the desert. You're sitting there
and you're putting the putting more and more logs on
(35:59):
the fire, and all all of a sudden, you get
a whirlwind coming out the top of the fire. What's
going on, Well, the ionized air, it's the same thing
and the column of smoke, and it's making that connection
to the vertical electric field. And once that connection is made,
now you have the additional energy coming from the vertical
(36:21):
electric field, which is ionized air. Positive ions moving up
the column of air. And what does it do. It's
like the opposite of water going down a drain in
the bathtub. You pull a plug in the bathtub and
the water starts going like this, starts swirling and going
down the drain. Well, if the air is going up,
(36:43):
it does the same thing, but it's and it's also spinning,
so it causes that circular motion as it moves up,
just like water going down the drain, but it's air
moving up the column. Hurricanes, tornadoes. That's why hurricanes in
the southern hemisphere in the other direction. Tornadoes in the
Southern hemisphere' spin in the other direction. It's a Coriolis force. Okay,
(37:07):
So now what I'm going to do is I'm going
to read off a man made situations where they have
used the vertical electric field and for useful things. And
I'm starting out with the nask alignes. I discovered that
these are fractal antennas well. To drive an antenna you
(37:29):
need electrical power. And so how did they get that
electrical power? And by the way, we don't know if
these were made by human beings or we don't know.
This is a pretty amazing phenomena for something that is
thousands of years old, potentially tens of thousands. We don't
(37:50):
even know. They have no idea who made them or when.
But to power them they used atmospheric electricity ons They
actually built mounds, and on top of those mounds would
have been the electrical sources that tapped into the vertical
electric field to power these big antennas. Okay, Atlantis, I've
(38:13):
talked about Atlantis my book Atlantis to Tesla, the Colburn connection.
The Colburn connection talks about the Atlanteans tapping into the
vertical electric field. The five Ring City I talked about
this last week, the fiv Ring City with the statue
of Poseidon in the middle with his pitchfork headed up
(38:35):
into the air in that connecting to the vertical electric
field and giving them nearly unlimited electricity. And also then
the entrance into Atlantis, the volcanoes Kragato and its sister
volcano across the channel at the strait of the Sunda
(39:00):
Queen Sumatra and Java. That was the entrance to Atlanta.
Those were the pillars of Hercules and of course lit
up at night because there's glums plumes of smoke going
into the atmosphere caused the discharge of the vertical electric
field and lighting them up like a huge light bulb. Okay,
(39:20):
the Great Pyramid at Giza, the Golden Cap very clearly,
and the collector for atmospheric electricity. And then the course
the Tesla Wardencliffe Tower and the Tesla Colorado Springs facility
man made to collect atmospheric electricity. And here's one I'm
(39:45):
Every Thursday night, I have my radio show it's gone
for twenty five years. James McKinney Science Hour at the
Crossroads transmitted worldwide on shortwave radio. Well shortwave guess what
is an electromic signal that bounces off the ionosphere? And
that's how it moves around the world. And it allows
(40:07):
people in the other side of the planet to hear
the radio signal because it bounces off the ionosphere. And
when we have solar storms sometimes that signal can be disrupted.
But anyway, that's another man made use of the vertical
electric field, which has its one source. One side of
(40:28):
that capacitor is in the ion it's fear. Okay, So
now look through some of the naturally occurring things that
we see from the vertical electric field, and remember they're
all based on the same principle which I discovered. And
once again Tesla didn't know this. He didn't understand where
(40:49):
this vertical electric field came from, how far away it was,
how high up in the sky it was, or what
was powering it from outside. Clearly there's some external power,
and he didn't know about the solar wind. He didn't
know about the electrical conditions on the sun. Okay, So
fires in the desert. Okay, I was talking about a desert.
(41:11):
You have a fire, and all of a sudden you
get this tornado coming out of your fire. Dust devils
also in a dry plain area where you have the
vertical electric field, so you have wind, it kicks up
some dust and all of a sudden you can see
these things formed there. All of a sudden, the wind
(41:32):
is blowing and a little bit of disturbance in the
air causes a little bit of a concentration of dust
or something. In Boom, You've got a dust devil and
that thing's racing across the desert. That well, it's racing
across the desert and going up into the sky. You know,
there's some like magical condition there. Oh, here's one. It's
(41:56):
actually not on my list. I just jogged my memory.
When I was young, I used to go into the
wilderness and spend the good deal of time out there.
And one time I was on a beautiful lake in
the morning before sunrise, and fog forms on the lake,
just kind of a thin fog you can still see
(42:17):
across the lake. And I'm sitting there looking at the lake,
and all of a sudden, these these like little tornadoes
start forming, and they're spinning around and there's, all of
a sudden, there's dozens of them. All of a sudden,
there's hundreds of them, and they're moving around like this
(42:39):
all around the lake. And then when they get close,
they would like spin around each other and like bounce away.
And they kept doing this until finally the sun came
up and boom like that, they were all gone. But
it was something that how many people have ever seen
something like that? Actually truly amazing. Okay, so back to
(43:00):
my list here. Tornadoes, of course, hurricanes and cyclonic storms
the same situation. Other hurricanes form the tornadoes. If you
look at a tornado or videos of tornadoes, they're always
associated with a lot of lightning. These are high activity
lightning storms. And the situation with hurricanes, Now, what a
(43:22):
lot of people don't know is they think the eye
of the hurricane is what causes all the damage, and
the majority of damage when a hurricane makes landfall is
due to the tornadoes on the leaning edge. And what
happens they're short circuiting. That entire hurricane has a short
is being formed because of the ionized water. Ionized air
(43:44):
above the water comes up and comes up a central
tube in the middle and it spins up and it's
connecting to the vertical electric field, and that's what powers
the hurricane. Not warm water. Excuse me, noah, in the
National Weather Service, it's not formed by warm water or
affected by high wind high level sure winds, no complete belone.
(44:08):
But anyway, that's another unfortunate residue of the scientific world
that doesn't understand science. What's going on in the real world. Okay,
But the leading edge of the tornado when it makes landfall,
those tornadoes are shorting out, and that's what causes the tornadoes,
(44:30):
and they cause most of the damage. That's where the
real high wind comes from. And then the water comes
in once it's ripped off the roof of a building
or whatever, then the water dumps in there and destroys everything.
And of course the eye of the hurricane has a
lot a lot of energy also, but the big damage
is done by these leading edge hurricanes. I'm sorry, leading
(44:52):
edge tornadoes. Water spouts. I was in the Caribbean one
time walking along the beach. Nice nice sunny day, but
it was kind of hazy, and I look out over
the ocean and there's two water spouts off maybe a
mile maybe a couple miles off shore and just meandering along,
(45:13):
going along. But you would not want to be caught
up in one of those if you were on a boat,
especially even a medium sized boat, those would do a
lot of damage. There's stories of fishermen who would be
out on the ocean fishing and all of a sudden,
the cloud would move in and it would be raining
fish out of the sky. Well, guess what that came from?
(45:35):
A water spout? Where there and where does that energy
come from? There's no visible source. The standard meteorology would
tell you that something like that has caused when two
clouds rub against each other. Absolute absurdity, no because on
and also when you see tornadoes coming out the cone
(45:56):
of a cinder cone volcano or a shield volcano, also
you see the tornado coming right out the caldera up
into the sky a clear blue day, not a cloud
in the sky. Okay, So just to reaffirm that the
(46:18):
tornadoes when the hurricane makes landfall, that leading edge, those
band clouds, where there's a lot of electrical charge between
there and ground, they start shorting out and that's what
causes the tornadoes. Once again, an electrical effect water coming
into the Earth's upper atmosphere. Now, this is something that's
(46:40):
really interesting. Not many people know about it. Lou Frank
was another physicist at the University of Iowa. I believe
he was a student of James Van Allen. Anyway, he
was of the opinion from scientific research, from data that
there was water coming into the Earth's upper atmosphere like
(47:04):
on a continual basis, and he got pooh food. He
tried to get his experiments on satellites and he was
able to sneak a detector, an ultraviolet detector onto a satellite.
The satellite goes up, he gets the telemetry data back
and there are these big splotches up on the upper
atmosphere of the Earth. When you look down within the ultraviolet,
(47:26):
you can see the water. And so there's these big
splotches on Earth's upper atmosphere of water. Where is this
coming from? Because they would come, they would form, and
then they would dissipate, and so nobody really knew. So
they said, well, maybe these are little ice balls, little
comets coming into the Earth's atmosphere, but that didn't explain it,
(47:48):
because a little teeny like a hailstone type of comet
that's about the amount of water that they were detecting.
A very small amount, but a little teeny ice ball
would come into the earth atmosphere and melt, but it
wouldn't cause this broad range or a field of water
at the upper atmosphere. Okay, So anyway, they never figured
(48:12):
it out. But then what I did is when my
work came along. It was working with these Russian atmospheric
scientists who had seen tornadoes on the Sun, and so
the no, what's causing the tornado on the Sun. It's
the same thing because the Sun is not just a
gravitational ball of hot gases. It's electrically active. It has
(48:36):
a electric field, and I talked about that that's a
topic that's far too complicated for this program. But basically,
the corona, which is a field of electrons surrounding the Sun,
acts as an attractor. So when the proton wind comes
out from the Sun, it connects like a screen, like
(49:01):
a charge screen, and the protons come out. But anyway,
the point is that there's a vertical electric field above
the surface of the Sun, and that's causing the same
tornadic activity that you see with all of these other properties.
So the Russians. That's why they liked my work because
(49:22):
it explains all of this. Okay, so tornadoes on the sun,
water coming into Earth's up upper atmosphere. Here's an interesting one.
There is a legend, a legend in the Hawaiian Islands. Now,
all of the Hawaiian islands have been hit by major
(49:43):
hurricanes except the Big Island of Hawaii, and the natives
going way back had a legend that there was you
know they I'm sure they configured it around one of
their deities or whatever. But the Big Island of Hawaii
had never been hit by a hurricane, in spite of
the fact that the other ones had been severely hit
(50:05):
by hurricanes in the past. And so anyway, I was
watching this one day. So there's two hurricanes. Watching other
satellite data, there's two hurricanes, one following the other. They're coming,
racing across the Pacific Ocean and they're going to swing
up and they're going to hit the Big Island. So
the warnings go out and everybody takes cover, and not
(50:28):
that there's any place to run to even today, there's
no shelters there. But the hurricanes are coming. And the
first one comes up and it gets within about fifty
miles of the Big Island of Hawaii, coming from the southeast,
from east southeast, and all of a sudden, it starts
(50:50):
to break up and it just dissipates and it just
like goes away. I'm like, what the heck is The
second one rolls in and it one this one kind
of curved and missed the island completely. But this one
hurricane just vanished into thin air and it did not
hit the Big Island, And so I'm going, Okay, what's
(51:13):
going on here? So what happens is the hurricane is
powered by an electrical current going up into the ionosphere,
and Mount A Loa, which is on the eastern southeastern
side of the Big Island, as a vertical electrical current
going up into the vertical electric field into the atmosphere.
(51:36):
And what it does is it robs the current from
the hurricane, and the hurricane just dissipates. So that's why
the Big Island of Hawaii has never had a major
hurricane because Mount A Looa, the big active volcano at
the southern end of the island, grabs that electric current
from that's driving the hurricane, pulls it away in it
(51:58):
and it cannot it cannot continue. It just robs the
hurricane of its energy source. Actually amazing that you can
do this. Okay, so let's look at for some other Okay,
so dust devils on Mars. Just talking about another planet here,
(52:19):
dust devils on Mars and the hurricane on Mars already
talked about that. Okay, let's step off to another planet.
Now I've now on this show, I've previously I talked
about the Great Red Spot of Jupiter being a cyclonic storm. Now,
why does the Great Red Spot of Jupiter keep going
(52:40):
and going and going like the ever ready bunny who
never runs out of battery? And that is because, as
you can see, hurricanes, when they make landfall, that's when
they dissipate and underneath what because the Jovian atmosphere is
very thick and it's it doesn't have any land formation
(53:04):
underneath it, The Great Red Spot and all these other
cyclonic storms, hundreds of them, keep going around and around
and around. There's nothing for them to short out to,
so they just keep going and going. And Jupiter is
a small, unlit star, so very interesting. And so all
(53:26):
of these things are related to the vertical electric field.
Jupiter has a very large electric field because it's acting
like the sun. And Okay, so I hope this is
interesting and to a lot of people this might be
(53:49):
information you're not interested in. But if you're out in
the desert sometime and you have a campfire, maybe be fun.
Just take the family, go out camp on the desert
and see if we can get a fire going. Doesn't
have to be a big fire, a big fire and
at night or in the daytime, but if there's not
(54:09):
much wind, that's helpful, so that the fire is the
is just the column of smoke and hot gases from
the fire. Just going straight up is the best condition.
And just sit there and start your fire and then
sit back and watch and see if you can connect
into the vertical electric field. Now, another thing, this is
(54:31):
very interesting that the Shamans. Why do the Peruvian Shamans
go up into the mountains and they go barefoot and
they will go up and do their They'll take a
group of people and they will have their prayer vigilances
high up in the mountains. So why do they do
that Because their feet are touching ground, so they're grounded,
(54:56):
electrically grounded, but their head is connect it much higher
into the vertical electric field. Okay, so this is a
way of their way of connecting, so to speak, with
the universe. So very interesting. I just want to quickly
(55:17):
go back to hurricanes because I want to fill in
some of the missing blanks here relative to hurricanes. Okay,
here is the typical formation of hurricanes that you have
rain the ones that we see here in the United States.
You have Africa. The central equatorial region of Africa during
(55:39):
the hurricane season has tremendous rainstorms, cumulonimbus clouds with electrical
discharges down the ground and moving, and so they're connected
to the vertical electric field, and that's what's causing all
the lightning. And just a little note also I talked
(56:00):
about last week. I showed how there are the lightning.
There's a lightning that's been discovered above clouds. So where
does all this come from. The standard explanation from meteorologists
is that the electricity forms from updraft currents in the
cloud and then come shooting out. Well, let me explain something.
(56:22):
If you have a battery, the way it's going to
discharge is internally, and so there's no way for a
battery to form and then electricity comes shooting out the
positive and the negative side of the battery absolutely impossible.
It's not the way electricity works. And that's one of
the problems with a lot of these scientists is they
have very poor, very poor They probably didn't make it
(56:44):
through level one or two physics, let alone electronics, so
they have no idea that what they're spouting is complete nonsense. Okay,
So anyway, the cumulonimbus clouds are forming over Africa, there's
rain and they're grounded. As soon as they roll out
over the Atlantic, they don't have that ground anymore. So
they ionized air above the surface of the ocean connects
(57:07):
to starts rolling up. In the very highest point of
the cumulonimbus clouds, starts connecting to the vertical electric field.
And as the ionized water at the surface of the
ocean starts moving upwards, it forms a column and that
starts rotating, and that's where the eye comes from, and
that's what's driving the hurricane. Okay, So I hope this
(57:32):
is making a lot of sense. But all of this
related to the vertical electric field. And what's interesting, actually bizarre,
is that standard science does not understand or recognize any
of this, So after listening to this and watching this show,
you have better information. All the tens of thousands of
(57:55):
scientists that work at NOAH, the National Oceanic and Atmosphere Administration,
or the National Hurricane Prediction Center. These guys tell you
a quick little story of about a minute left. There
was a guy named William Gray who was the head
of the National Hurricane Prediction Center and developed many of
the techniques that they are still using today. And one
(58:18):
day he got up in a podium with his right
hand man and he said, I'm quitting. Says nothing that
we're doing here has any value at all. It's all
incorrect science. And he got off his podium and he
walked away because he realized that nothing they were doing
was correct. However, because of the way funding works with
(58:40):
the federal government, they keep teaching this nonsense and keep
making these annual hurricane predictions absolutely ludicrous. But the point
I've made before is that government funded science, I'd say
about ninety nine percent of it is just completely because
(59:01):
they have to keep the funding going, so they have
to keep saying the same thing. They can't admit they're wrong. Okay,
well I'm out of time, I'm gonna talk to you
next week, and so we'll probably do some interesting topics
relative to Tesla Coil's next week.
Speaker 1 (59:23):
This has been Master of Science with host James McCanne.
Join us each week as James will delve into historical
figures such as Nicola Tesla, Albert Einstein, and the great
mathematicians as we explore the history of Man, Earth in
our universe as you've never seen it before. Tuesday, seven
pm Eastern, right here on the Bold Brave TV Network,
(59:47):
powered by B two Studios.
Welcome to Master of Science with host Professor James McCanny.
The good. Professor's career spans fifty years as a university teacher,
scientist and engineer. Each week, he will explore the rapidly
changing world of science as many long held theories are
crumbling under the weight of new data. He will cover
(00:23):
the fields of geology, archaeology, meteorology, oceanography, space science, astronomy, cosmology,
biological evolution, virology, energy, mathematics, and war. So please welcome
the host of Master of Science, James McCanny.
Speaker 2 (00:52):
Good evening, everybody, Welcome again this episode thirty five. I
believe yes, and tonight I want to I want to
make a correction. First of all, last week I talked
about something called a digerie doo, and I talked about
a string with a board on the end of it,
and you whirl it around and it makes a low
(01:15):
humming noise. And actually that particular thing which does the
same thing gives you a low humming noise is called
a bull or so when you get down to some
of these finer points of you know. But anyway, a
(01:35):
digerie doo, by the way, is a horn like device
and it's used all over the world. It can be
used as a musical instrument, it can be used as
a accompaniment to music. It can be used for communication.
But it's a long in fact, they use these in
(01:56):
many places around the world. You will find them, for exams.
Ample in the Swiss Alps, they have a long, long
tube in a blow it and makes a sound and
it's heard. This is the point. It is heard for
miles and miles away. It carries that low frequency carries
through the air, especially if it's dry, so up in
(02:17):
the Swiss mountains where it's cold it's relatively dry, or
in the Australian Outback is another place where they're used,
and the same effect. So now what happens You blow
in this long tube and you get a very low
frequency sound that comes out of a typically constant of
(02:41):
a constant frequency. So it's based on a design and
the same with the bull roarer, which is a flat board.
It can be about this big, it can be in
various shapes depending on the shape. And so what you
do is you put a hole in one end. So
it's a little flat board about this big, and you
put a hole in one end, put a string in
there and you whip it around and by changing the
(03:05):
frequency you can change the sound a little bit. But
these are used and have been used for telecommunications back
in the day when we didn't have but when they
didn't have telephones, and for centuries. So this is a
form of communication. Okay, Why was I talking about this
(03:29):
is because the people who lived around Wardencliffe, the Wardencliffe
Tower in New York where Nikola Tesla set up his
Tesla Wardencliffe Tower, when he would strike it up at night,
and that was his agreement with Westinghouse, is that he
(03:50):
could use power from the Westinghouse grid, which he had
sold all of the components and the design and everything
to Westinghouse so they could generate and sell electricity. And
so the subtle thing that Tesla did in his contract
he says, when it's off peak hours and there's not
a lot of electrical use, I can draw off the
electrical grid and use it for my experiments. That's what
(04:13):
Tesla had in his contract. And by the way, he
sold the rights to his patents and everything to Westinghouse
for around four million dollars. Now today that would be
a hefty sum, but back in those days it was
a really good amount of money. So Tesla went between
(04:34):
being rich and being poverty stricken. He died, of course,
if he died the way we were told. I don't
believe the story that comes down from the intelligent agencies
during World War Two. I've talked about that before. But
getting back to the Wardencliffe Tower, it would develop this
low humming noise. In the last week I talked about
(04:58):
the Wardencliffe Tower developing a frequency of around the driving
frequency of the Tesla coil in the Wardencliffe Tower was
around forty hertz, and of course the big coil would
have been a much higher frequency. But what the people
heard was related to the forty hrt signal approximate forty
(05:24):
hurt signal. It came out, and that's about the frequency
of a dijerie doo or a bull roarer, and so
that sound carries along the ground. Now, when we were kids,
it wasn't very smart idea, but somebody got the bright
idea to put your ear down to the rail. There
were the railroad tracks. There were a couple of railroad
(05:46):
tracks in the town where I grew up, and you'd
put your ear on net and you could hear the
train coming a long ways away, because the same thing
that low frequency noise coming from the train would carry
along the track. So the point being that, let me
(06:08):
use another example, try and get to the point I'm
trying to make that people can't make this up. They
would see the tower glowing up into the sky. And
this is much like the I talked about the pillars
of Hercules being Krakatoa and its sister volcano in the
(06:30):
Sunda strait between Java and Sumatra as the entrance to Atlantis.
And so people this is you know, it's not like
people can make things up. Another thing that people cannot
make up is smell. Now, people can imagine that they
(06:50):
heard something. People can imagine that they saw something. People
can even imagine that it gets a little if if
they tasted something. But the thing that they cannot imagine
and create in their mind as a substitute for reality
is smell. And so that is something that for example,
(07:16):
when they're examining cases of people who saw Bigfoot, and
you know which people are like, oh, that's conspiracy theory,
there's no Bigfoot. But then also say people who are abducted,
you know, who were abducted by aliens, for example, and
they put them under hypnosis to see if their story
(07:38):
is consistent or whatever, because then they can access that
subconscious by psychotherapy and put them under hypnosis, and when
they start talking about the smell, both Bigfoot and aliens,
that's what you cannot make up. And so they then
(08:01):
they realized that these people are telling the truth. There
was something there and there's an odor, for example. And
this is consistent with people who were abducted that are
real that when they're under hypnosis, they talk about the
smell and it's something you cannot make up. So then
that gives a lot of credibility to their story. And
(08:21):
the same with Bigfoot. These people that are scared out
of their mind because they saw this creature in the woods.
And I don't know if there's any maybe Bigfoot has
gone extinct, but there used to be stories quite common,
especially up in the northwest, the big forests in the
American Northwest, you know, the Pacific Northwest, of people seeing
(08:44):
Bigfoot and so the Okay, so this is getting this
is getting off track a little bit, but I'm trying
to make a point here that the people who heard
the Wardencliffe Tower, it's low humming noise it makes sense,
and of course they didn't. They couldn't make it up.
It's like when ancients talk about seeing comets and seeing
(09:06):
comets up in the sky and uh, the it's not
like they could make it up where you know, they
have no basis for making things up like this, and
so they talk about the comets and and the effects
that they had, or comets taking the atmosphere and oceans
off of Mars, and various cultures talked about this, and
(09:27):
that's what Belakowski was studying. But because of a large
comet passing by and wh how could they make this up?
Where where's the basis for making this up? Or lightning
bolts coming cr across the sky Zeus, which would be
Jupiter throwing lightning bolts across the sky which people actually saw.
(09:50):
And of course, now with with the work I did,
it explains that or the work that I've done done
relative to understanding Tesla's work. Now we understand why there
was a low frequency hum coming out of the base
part of the Tesla tower that you could hear a
long ways away on a summer night. The people would
(10:10):
hear that humming noise and they would see the bright
lights shining up into the sky above the Tesla Tower. Okay,
so back to digeridoos and bull roars once again. A
digerideo is a long tube and I'm sure there are
other names for that as you go around the world
where they're utilized. And a bull roarer is the flat
(10:35):
piece of board on the end of a string which
you whirl around in a circle fast and it makes
this low frequency noise which would be about not only
is it whirling around on the string, but it's spinning
around at the same time, and that's where that's where
the frequency and it's meeting the air, but it's also
(11:00):
spinning on the end of that string, and so that
gives you and that's where the term bul bulvar comes from. Okay,
And so I wanted to clarify that as a as
related to the Wardencliffe Tower. And that brings me in
(11:21):
now tonight I'm going to continue talking about electric fields,
the vertical electric field, which I talked about last week,
and last week was kind of an introduction. I mentioned
tornadoes and hurricanes and volcanoes. There's another example I'll give
tonight with fires where you have a fire in say
(11:45):
you're out in the desert. It's a dry desert night,
and you have a fire and this thing gets burning
pretty good. All of a sudden, there's a tornado coming
out of the top of the fire. What's causing that?
One time I was in southern Colorado. The sage brush
was rolling across the tumbleweed, and all of a sudden
(12:06):
there were all of these little they call them dust
doubles dust devils out there. So they're like little whirly
little tornadoes, little cyclonic storms, and they raced across the desert.
And you'll see those on Mars. We know that those
exist on Mars. They're much bigger on Mars. But what
(12:27):
is that? Well, let's look at the Sun. When I
worked with these Russian scientists at the University of Nober's
no Ver Siberis in Russia, they were trying to understand
what caused this. But they had seen tornadoes on the Sun,
and so they were like, what on Earth is going
(12:51):
on here? What on the Sun is going on? And
so that's why they liked my work, is because my
theoretical work explained why there are tornatoes on the surface
of the Sun, and it's due to the vertical electric
field that is outside the Sun. Well, why is there
a vertical electric field on the Sun. It's supposed to
(13:11):
be there, just big ball of gas. Well, no, it's
very electrical, very electrical conditions around the surface of the Sun,
and so tornadoes. You'll see volcanoes where there's just a
tornado coming right out the top of the tornado because
you have this heat coming up and it connects into
(13:32):
the vertical electric field, and all of a sudden, the
up current starts spinning and connects to the vertical electric field.
So you have an ion current coming up out of
the volcano and literally causing a tornado. One of my books,
I Forget that might be the Atlantis to Tesla, The
Covin Connection book has a picture of one of the
(13:57):
Italian volcanoes from Italy and it has a perfectly blue
sky day and there's a tornado coming right out of
the caldera. Once again, these things are connecting into the
vertical electric field, and so we've seen hurricanes on Mars.
(14:20):
I have a picture in my weather book, the Principia
Meteorolohia The Physics of Sun Earth Weather. I have a
picture that came from the Hubble Space telescope. They took
a picture of Mars and lo and behold, right there
is a hurricane. It covers about a tenth of the
surface of Mars. Really big hurricane. Well, on Earth, we're
(14:40):
told by meteorologists that hurricanes are caused by warm water. Well,
excuse me, mister Noah Weatherman. There ain't no water on Mars.
And so how does a hurricane form on Mars? Well,
it's that's because hurricanes don't form from warm water. They
(15:02):
form from electrical current in the vertical electric field, and
Mars has a vertical electric field. Also, it has an ionosphere,
just like Earth, and that's the capacitor between the ionosphere
and the ground. That is the vertical electric field. And
in the atmosphere is a dielectric which is an insulator.
(15:24):
And then when you have conditions like the sea, it
probably started with a dust double And basically a dust
level is a tornado of sand literally, Whereas if you know,
in the temperate climates, we have tornadoes and they have
(15:45):
a lot of water in them because they're associated with thunderstorms.
But in the desert there's no water there. So when
you see a dust level, it is literally that it's
dust and that's probably how the hurricane on Mars formed
is with a dust devil that finally connected and created
(16:07):
enough atmospheric disturbance where you could actually see it. The
clouds in Mars atmosphere, the collection of probably water, enough
water to form a visible hurricane on the surface of Mars. Okay,
So these are all conditions. So now what I want
to do is talk about how these form. Where does
(16:31):
this vertical electric field come from? And Tesla knew about it,
He used it, he was utilizing it. He had equipment
that tapped into it. Colorado Springs Facility did the same
thing Wardencliffe Tower, the little bit different configuration in the equipment,
but they were doing the very same thing. But Tesla
(16:53):
didn't know where this vertical electric field came from. He
didn't know how extensive it was, how high it was,
where was the end of the atmosphere. Tesla died in
nineteen forty three forty four. I forget or he certainly
went out of commission at that point in time. But
he didn't know about the solar wind. He didn't know
(17:14):
about the Van Allen belts that's around Earth. These electrical
currents of protons and electrons that are in a magnetic
orbit around Earth. That's what the Van Allen Belts are
discovered by James Van Allen, a physicist in the University
of Iowa, and other scientists. Of course, it's one of
(17:40):
the things we know about now and it's one of
the great radiation hazards in trying to travel outside of
lower th orbit on Earth. The Van Allen Belts begin
anywhere from oh maybe two hundred miles up and then
beyond they go way out and they're variable, I think
(18:01):
on the show I posted in a previous show. It's
like a video. It's like an more like an animation.
But these things grow and shrink, and then when solar
storms hit, those particles can penetrate through our protective magnetic
field and come in and join that Ben Allen belt.
They come in. And what happens is that if you
(18:23):
have a magnetic field, which Earth does. Earth has a
natural magnetic field and it also has a coupled magnetic
field with these electric currents that are up in the ionosphere,
and so what happens is those high energy particles come
in from the Sun barrier through the protective magnetic field.
It's about thirty five thousand miles out from Earth between
(18:45):
Earth and the Sun, and they come in and they
start spinning around the Earth. They move into these literally
magnetic orbits, and so what happens, it's basic physics. If
you have a magnetic field and a charge particle comes in,
it's a force perpendicular to the velocity and the b
(19:08):
field the magnetic field, and that's the force on the
charge particles. So it basically gets into an orbit. It's
l it's almost like gravity, but it's electrical and magnetic.
And so that's what sustains the Van Allen Belts. And
they're very dangerous because these are relativistic, these are moving,
(19:28):
these are particles that when they hit meddled. The problem
is here's the whole problem. And the Russian scientists knew this.
Also in the sixties, prior to prior to nas error
doing the Apollo program, the Russians sent three guys to
cosmonauts to the Moon. They didn't land at what point
(19:50):
was not the land And they told me this that
they had gone around the Moon and came brought these
guys back to Earth and they came back in and
when they landed, they were uh, very dead. They're from
high levels of X ray radiation and they never went back. Yuh,
believe me, the Russians had capability, and it wasn't necessarily
(20:14):
to land on the moon. Landing on the Moon is
a technical, technically very difficult thing to do. Uh. But
after these guys came back, they didn't. They literally they
they told me they said, they never went back. And
they had certainly the capability with the high the high
energy rockets, the uh, the capability of staying in space
(20:38):
for long periods of time. They were staying in space
a year at a time back in the sixties, so
that was not a big deal for them. But they
knew that there was danger out there in those radiation
belts and they s literally never went back because they
didn't know how to, uh, how to mitigate the radiation
(21:01):
for humans. And of course there's lots of satellites that
go out there that are radiation hardened that do just fine.
You know, that's not the issue. It's the biological life
forms that have a problem. And interestingly enough, after the
the Apollo program, NASSA never went out a lower orbit either. Well,
(21:24):
actually they did, let me tell you a little story.
They did take the Space Shuttle up to it was
generally in lower herbit when they were doing their activities,
and they decided to take the astronauts up into the
Van Allen Belts, the lower edge of the Van Ellen Belts.
(21:45):
So they start propelling the Space Shuttle up into a
higher orbit, and their eyebrows in the hair, the eyelashes
and eyebrows, and their hair started. Basically, it's an example
(22:06):
is when you take and you may have seen this,
like a experiment in a high school physics laboratory. They
have the Van Allen or the vandigraph. It's a charge
device that develops a high charge. And they put a
kid up on an insulating chair next to the vandograph
(22:29):
and he puts his hand on there, and the kid's
hair all sticks out like this because the electricity is
flowing out and electrons are forced away from each other.
So it's like and they have this. If you turn
the lights off in the room, you can see the
hair the electricity coming off their hair. So this is
what happened to the astronauts, the Apollo I'm sorry, not Apollo,
(22:53):
excuse me, to the Space Shuttle astronauts who are above
low Earth orbit, okay, And so they brought him down
right away, because believe me, that's not a fun experience.
I've I've done that myself, where you stand on a
chair and your hair goes out, and it's it's a
very strange feeling cause you can feed that, you feel
(23:14):
the current going through your body. It's a low current,
but still it's kind of and you n you tell
the people don't take your hand off that cause you'll
get a severe shock. Uh so at any rate. Uh.
But other than that, they really have never ventured beyond
low Earth orbit, which makes you kind of wonder if
(23:35):
there was no big deal about it. Uh. NASA had
a program which I worked around, not in I've never
worked for NASA and wouldn't want to. And uh but anyway,
I don't know if the program's still going on, if
it's being funded, but it was called Living with a Star,
and it was a program at NASA to discover how
(23:58):
to deal mitigate radiation. And so as a physicist, that's
one of the things I pride myself in doing, is
first of all, understanding space radiation, where does it come from?
And then if you know where it comes from, then
you can develop ways to mitigate it. And so I
(24:19):
developed a way of mitigating space radiation. But it's one
of those things that I don't talk about. I've never
divulged that scientific information to anybody because I think there's
a reason for that. I think there's a more than
just a physical scientific reason for the Van Allen Belts
and to for I don't. I'm my personal feeling is
(24:45):
that mankind is not ready to go into space yet.
Because when we think of going to Mars, or you
think of going to the Moon, or you think of
doing anything in outer space, it's always talked about in
terms of a technological achievement. Can you build equipment, can
you refuel it? Can you do all of these things
relative to going into space. But my belief is that
(25:10):
you have to have a society, a broad based society,
that is capable of psychologically going into space. In fact,
that's the point of a book that I wrote. It
was published I Forget maybe twenty ten, called the Diamond Principle,
(25:31):
and it's something all my books I talked about. Going
back into the nineties, when I was on radio shows
like with Art Bell or the Coast to Coast or
Alex Merkling or any of these other people where I
was guests going way back on the radio shows, I
would talk about these topics. And so the point of
(25:53):
this book the diamond principle. It's somewhat of a dissertation
man's ability to go into outer space. And so the
point of talking about the diamond principle is that a
diamond has many facets, and so a facet being one
(26:15):
of the faces, one of the cut faces on the
surface of the diamond. And that's because they're crystals. It's
a crystal in structure, and that's where you get these
beautiful diamonds with all the cuts, et cetera. And then
diamond typically internally has fissures and fractures, which gives it
(26:36):
a very specific identity. That's how people identify diamonds is
by their inner internal characteristics. Okay, but back to the
idea of the diamond principle is a dissertation on how
to what the psychological difficulties that man has relative to
(27:02):
going into outer space, not just the technical issues, but
the psychological issues. Is man really ready with his warlike
nature on planet Earth? And it brings up a topic
too that in all my books, going back to the
early books, I have a chapter in all of them
(27:25):
and it is will man survive? And the question is
a very real one because there are threats from outer space,
not just little asteroids cliding into Earth every now and then. No,
those are not the big problems. The big problems are
the big comets that can come by and cause severe damage.
(27:47):
I mean change the atmosphere, wipe out change, you know,
build mountains, move the oceans, and those are the big issues.
Those are the ones. Those are the mass extinction issues,
not because here's the deal with asteroids, most of the
energy is absorbed locally. And people talk about this crater
(28:10):
that's in the Yucatan Peninsula. It's really the biggest known
crater due to an asteroid on planet Earth. It's huge,
and it was believed, it was said that due to
s UH physicists studying there's like a layer where there's
(28:32):
a m uh clearly a mass extinction, but they thought
that it wiped out the dinosaurs. And so anyway, that
belief was held for maybe twenty years, but it's no
longer held in the circles where people really know about this.
But they went back and they studied the fauna on
top of the crater. In other words, after the crater
(28:54):
was formed, they went back and looked at the fauna
and the animal life, etc. And it didn't even wipe
out the dinosaurs. Locally, they grew, they were doing just
fine on top of the crater after the impact. And
the end result is that most of the energy is
absorbed locally and it goes up, not outwards. So they
(29:22):
really have overestimated the damage that would occur due to astroids. Now,
if you get hit with one, or if you're in
the locale, it's not going to be a good day
for you. But like I say, they didn't even the
dinosaurs didn't even die out right there where the crater
is the biggest crater we know of, and so clearly
(29:44):
asteroids can be an issue. But the real big issues
have been with passing large comets, and they would be
in the form of a comet because they're discharging the
solar capacit or another electrical condition in the Solar system. Okay,
so what I'm doing here is I'm rounding out the
(30:05):
conditions in the Solar system. The vertical electric field that
we experience on Earth is due to the electrical nature
of the Sun. That's what drives everything electrically in the
solar system. And for example, the comets are the discharge
(30:25):
of the solar capastor. That's why we have thousands of
planets out in the Kuiper Belt forming because they're discharging
the solar capacitor and that's in a region of dust
and gas that's held back by solar wind pressure. So
these are all if you read my books. This is all.
I'm just giving you a summary here of what's in
(30:48):
my books that I've released to the public. Okay, so
let me jump into now some of these conditions around
Earth and the Sun. In fact, i'll talk a little
bit about the tornadoes on the Sun and how these
form and why they're very similar. And also just to
mention here in my book the Principia meteor Looghia The
(31:12):
Physics of Sun Earth Weather, and this is something I
had mentioned previously, of course, in my work going way back,
was what I call local electrical batteries, and these are
in outer space. Now, when you have plasmic conditions in
outer space, what happens is there's separation of charge and
(31:32):
these create batteries. I'll just give you a simple example.
When the solar wind comes out from the Sun, you
have electrons and protons, and when they hit Earth's magnetic field,
the protons go one way and the electrons go the
other way. It's the same magnet electric particle interaction that
(31:53):
causes the Van Allen belts, but the electrons go one
way and the protons go the other way. And so
what happens that's a separation of charge that creates a battery.
And that's a battery that exists across Earth. And so
now when a solar storm comes out, it'll compress or
magnetic field, it'll compress that battery, and that can trigger
(32:15):
storms all the way down to the surface of Earth.
So that's an example, and there's seventeen of these batteries
around planet Earth, or around Jupiter, or around any of
the planets that have magnetic fields. Venus does not have
a magnetic field, so it has other conditions like X
(32:36):
rays to the sunword side. You can take a picture
of Venus in X rays and see that it's very
hot in X rays on the sunword side because it
does not have a magnetic field. And if we didn't
have our protective magnetic field on Earth, we would be
in big, big trouble. So okay, now, I'm going to
jump into the topic of a vertical electric field and
(33:00):
how these are visible. Now, this is where it's very
appropriate for the general public audiences to These are things
you can see. These are things that you will see
or there's ample evidence of this and videos that are online.
People have taken pictures of them. It's one of the
great things about cell phones is everybody's got a camera.
(33:23):
Hardly anything goes without some events going on. Somebody has
a camera that's taking a picture. And so anyway, okay,
so now'll jump into that. Okay, So just to explain
the physics of these they all work the same, they
all have the same physical properties. And here's what happens.
(33:46):
There is a vertical electric field. Okay, so if you
can start to short that out in a particular point,
and this is what Tesla is doing with his Wardencliff tower.
Just to give you an example of physically what happens
is that he would take in with the changing frequency
(34:07):
of the Tesla tower, that would take the dipoles in
the dielectric of the molecules in the airs atmosphere, and
that would flip them in unison. Okay, Well, the reason
the dielectric works is because the atoms are in air
and they're bouncing around and they're all they're in all
these different directions, and so there's no uniformity to the
(34:33):
direction of the dipoles. A dipole is a pair of
charges plus and minus, and it has an electric field
and it has a direction. And so in air, they're
bouncing around in there in all directions. But if you
can unify them so they're all in one direction and
then they flip in there in another direction, and they
keep doing this, then what happens is all of a sudden,
(34:54):
they're electric fields align and then what happens is it's
like drilling a hole, an electrical hole through the atmosphere.
And if you do that enough, if you can keep
that going, and it takes a lot of power to
do this, then you can eventually get to the point
where you have a path, an electrical path through the
(35:17):
atmosphere to the vertical electric field source which is in
the ionosphere. Okay, and so but you can do this
locally also, and that's what happens with tornadoes or dust devils, hurricanes,
tornadoes coming out the top of a volcano. And what
(35:38):
can help this also is a heat source. And so
if you look at a volcano, there's a heat source,
and what happens there's the column of air rising and
a lot of times there's a lot of ionized air
in that column. Also, what happens in a fire. You
have a campfire out in the desert. You're sitting there
and you're putting the putting more and more logs on
(35:59):
the fire, and all all of a sudden, you get
a whirlwind coming out the top of the fire. What's
going on, Well, the ionized air, it's the same thing
and the column of smoke, and it's making that connection
to the vertical electric field. And once that connection is made,
now you have the additional energy coming from the vertical
(36:21):
electric field, which is ionized air. Positive ions moving up
the column of air. And what does it do. It's
like the opposite of water going down a drain in
the bathtub. You pull a plug in the bathtub and
the water starts going like this, starts swirling and going
down the drain. Well, if the air is going up,
(36:43):
it does the same thing, but it's and it's also spinning,
so it causes that circular motion as it moves up,
just like water going down the drain, but it's air
moving up the column. Hurricanes, tornadoes. That's why hurricanes in
the southern hemisphere in the other direction. Tornadoes in the
Southern hemisphere' spin in the other direction. It's a Coriolis force. Okay,
(37:07):
So now what I'm going to do is I'm going
to read off a man made situations where they have
used the vertical electric field and for useful things. And
I'm starting out with the nask alignes. I discovered that
these are fractal antennas well. To drive an antenna you
(37:29):
need electrical power. And so how did they get that
electrical power? And by the way, we don't know if
these were made by human beings or we don't know.
This is a pretty amazing phenomena for something that is
thousands of years old, potentially tens of thousands. We don't
(37:50):
even know. They have no idea who made them or when.
But to power them they used atmospheric electricity ons They
actually built mounds, and on top of those mounds would
have been the electrical sources that tapped into the vertical
electric field to power these big antennas. Okay, Atlantis, I've
(38:13):
talked about Atlantis my book Atlantis to Tesla, the Colburn connection.
The Colburn connection talks about the Atlanteans tapping into the
vertical electric field. The five Ring City I talked about
this last week, the fiv Ring City with the statue
of Poseidon in the middle with his pitchfork headed up
(38:35):
into the air in that connecting to the vertical electric
field and giving them nearly unlimited electricity. And also then
the entrance into Atlantis, the volcanoes Kragato and its sister
volcano across the channel at the strait of the Sunda
(39:00):
Queen Sumatra and Java. That was the entrance to Atlanta.
Those were the pillars of Hercules and of course lit
up at night because there's glums plumes of smoke going
into the atmosphere caused the discharge of the vertical electric
field and lighting them up like a huge light bulb. Okay,
(39:20):
the Great Pyramid at Giza, the Golden Cap very clearly,
and the collector for atmospheric electricity. And then the course
the Tesla Wardencliffe Tower and the Tesla Colorado Springs facility
man made to collect atmospheric electricity. And here's one I'm
(39:45):
Every Thursday night, I have my radio show it's gone
for twenty five years. James McKinney Science Hour at the
Crossroads transmitted worldwide on shortwave radio. Well shortwave guess what
is an electromic signal that bounces off the ionosphere? And
that's how it moves around the world. And it allows
(40:07):
people in the other side of the planet to hear
the radio signal because it bounces off the ionosphere. And
when we have solar storms sometimes that signal can be disrupted.
But anyway, that's another man made use of the vertical
electric field, which has its one source. One side of
(40:28):
that capacitor is in the ion it's fear. Okay, So
now look through some of the naturally occurring things that
we see from the vertical electric field, and remember they're
all based on the same principle which I discovered. And
once again Tesla didn't know this. He didn't understand where
(40:49):
this vertical electric field came from, how far away it was,
how high up in the sky it was, or what
was powering it from outside. Clearly there's some external power,
and he didn't know about the solar wind. He didn't
know about the electrical conditions on the sun. Okay, So
fires in the desert. Okay, I was talking about a desert.
(41:11):
You have a fire, and all of a sudden you
get this tornado coming out of your fire. Dust devils
also in a dry plain area where you have the
vertical electric field, so you have wind, it kicks up
some dust and all of a sudden you can see
these things formed there. All of a sudden, the wind
(41:32):
is blowing and a little bit of disturbance in the
air causes a little bit of a concentration of dust
or something. In Boom, You've got a dust devil and
that thing's racing across the desert. That well, it's racing
across the desert and going up into the sky. You know,
there's some like magical condition there. Oh, here's one. It's
(41:56):
actually not on my list. I just jogged my memory.
When I was young, I used to go into the
wilderness and spend the good deal of time out there.
And one time I was on a beautiful lake in
the morning before sunrise, and fog forms on the lake,
just kind of a thin fog you can still see
(42:17):
across the lake. And I'm sitting there looking at the lake,
and all of a sudden, these these like little tornadoes
start forming, and they're spinning around and there's, all of
a sudden, there's dozens of them. All of a sudden,
there's hundreds of them, and they're moving around like this
(42:39):
all around the lake. And then when they get close,
they would like spin around each other and like bounce away.
And they kept doing this until finally the sun came
up and boom like that, they were all gone. But
it was something that how many people have ever seen
something like that? Actually truly amazing. Okay, so back to
(43:00):
my list here. Tornadoes, of course, hurricanes and cyclonic storms
the same situation. Other hurricanes form the tornadoes. If you
look at a tornado or videos of tornadoes, they're always
associated with a lot of lightning. These are high activity
lightning storms. And the situation with hurricanes, Now, what a
(43:22):
lot of people don't know is they think the eye
of the hurricane is what causes all the damage, and
the majority of damage when a hurricane makes landfall is
due to the tornadoes on the leaning edge. And what
happens they're short circuiting. That entire hurricane has a short
is being formed because of the ionized water. Ionized air
(43:44):
above the water comes up and comes up a central
tube in the middle and it spins up and it's
connecting to the vertical electric field, and that's what powers
the hurricane. Not warm water. Excuse me, noah, in the
National Weather Service, it's not formed by warm water or
affected by high wind high level sure winds, no complete belone.
(44:08):
But anyway, that's another unfortunate residue of the scientific world
that doesn't understand science. What's going on in the real world. Okay,
But the leading edge of the tornado when it makes landfall,
those tornadoes are shorting out, and that's what causes the tornadoes,
(44:30):
and they cause most of the damage. That's where the
real high wind comes from. And then the water comes
in once it's ripped off the roof of a building
or whatever, then the water dumps in there and destroys everything.
And of course the eye of the hurricane has a
lot a lot of energy also, but the big damage
is done by these leading edge hurricanes. I'm sorry, leading
(44:52):
edge tornadoes. Water spouts. I was in the Caribbean one
time walking along the beach. Nice nice sunny day, but
it was kind of hazy, and I look out over
the ocean and there's two water spouts off maybe a
mile maybe a couple miles off shore and just meandering along,
(45:13):
going along. But you would not want to be caught
up in one of those if you were on a boat,
especially even a medium sized boat, those would do a
lot of damage. There's stories of fishermen who would be
out on the ocean fishing and all of a sudden,
the cloud would move in and it would be raining
fish out of the sky. Well, guess what that came from?
(45:35):
A water spout? Where there and where does that energy
come from? There's no visible source. The standard meteorology would
tell you that something like that has caused when two
clouds rub against each other. Absolute absurdity, no because on
and also when you see tornadoes coming out the cone
(45:56):
of a cinder cone volcano or a shield volcano, also
you see the tornado coming right out the caldera up
into the sky a clear blue day, not a cloud
in the sky. Okay, So just to reaffirm that the
(46:18):
tornadoes when the hurricane makes landfall, that leading edge, those
band clouds, where there's a lot of electrical charge between
there and ground, they start shorting out and that's what
causes the tornadoes. Once again, an electrical effect water coming
into the Earth's upper atmosphere. Now, this is something that's
(46:40):
really interesting. Not many people know about it. Lou Frank
was another physicist at the University of Iowa. I believe
he was a student of James Van Allen. Anyway, he
was of the opinion from scientific research, from data that
there was water coming into the Earth's upper atmosphere like
(47:04):
on a continual basis, and he got pooh food. He
tried to get his experiments on satellites and he was
able to sneak a detector, an ultraviolet detector onto a satellite.
The satellite goes up, he gets the telemetry data back
and there are these big splotches up on the upper
atmosphere of the Earth. When you look down within the ultraviolet,
(47:26):
you can see the water. And so there's these big
splotches on Earth's upper atmosphere of water. Where is this
coming from? Because they would come, they would form, and
then they would dissipate, and so nobody really knew. So
they said, well, maybe these are little ice balls, little
comets coming into the Earth's atmosphere, but that didn't explain it,
(47:48):
because a little teeny like a hailstone type of comet
that's about the amount of water that they were detecting.
A very small amount, but a little teeny ice ball
would come into the earth atmosphere and melt, but it
wouldn't cause this broad range or a field of water
at the upper atmosphere. Okay, So anyway, they never figured
(48:12):
it out. But then what I did is when my
work came along. It was working with these Russian atmospheric
scientists who had seen tornadoes on the Sun, and so
the no, what's causing the tornado on the Sun. It's
the same thing because the Sun is not just a
gravitational ball of hot gases. It's electrically active. It has
(48:36):
a electric field, and I talked about that that's a
topic that's far too complicated for this program. But basically,
the corona, which is a field of electrons surrounding the Sun,
acts as an attractor. So when the proton wind comes
out from the Sun, it connects like a screen, like
(49:01):
a charge screen, and the protons come out. But anyway,
the point is that there's a vertical electric field above
the surface of the Sun, and that's causing the same
tornadic activity that you see with all of these other properties.
So the Russians. That's why they liked my work because
(49:22):
it explains all of this. Okay, so tornadoes on the sun,
water coming into Earth's up upper atmosphere. Here's an interesting one.
There is a legend, a legend in the Hawaiian Islands. Now,
all of the Hawaiian islands have been hit by major
(49:43):
hurricanes except the Big Island of Hawaii, and the natives
going way back had a legend that there was you
know they I'm sure they configured it around one of
their deities or whatever. But the Big Island of Hawaii
had never been hit by a hurricane, in spite of
the fact that the other ones had been severely hit
(50:05):
by hurricanes in the past. And so anyway, I was
watching this one day. So there's two hurricanes. Watching other
satellite data, there's two hurricanes, one following the other. They're coming,
racing across the Pacific Ocean and they're going to swing
up and they're going to hit the Big Island. So
the warnings go out and everybody takes cover, and not
(50:28):
that there's any place to run to even today, there's
no shelters there. But the hurricanes are coming. And the
first one comes up and it gets within about fifty
miles of the Big Island of Hawaii, coming from the southeast,
from east southeast, and all of a sudden, it starts
(50:50):
to break up and it just dissipates and it just
like goes away. I'm like, what the heck is The
second one rolls in and it one this one kind
of curved and missed the island completely. But this one
hurricane just vanished into thin air and it did not
hit the Big Island, And so I'm going, Okay, what's
(51:13):
going on here? So what happens is the hurricane is
powered by an electrical current going up into the ionosphere,
and Mount A Loa, which is on the eastern southeastern
side of the Big Island, as a vertical electrical current
going up into the vertical electric field into the atmosphere.
(51:36):
And what it does is it robs the current from
the hurricane, and the hurricane just dissipates. So that's why
the Big Island of Hawaii has never had a major
hurricane because Mount A Looa, the big active volcano at
the southern end of the island, grabs that electric current
from that's driving the hurricane, pulls it away in it
(51:58):
and it cannot it cannot continue. It just robs the
hurricane of its energy source. Actually amazing that you can
do this. Okay, so let's look at for some other Okay,
so dust devils on Mars. Just talking about another planet here,
(52:19):
dust devils on Mars and the hurricane on Mars already
talked about that. Okay, let's step off to another planet.
Now I've now on this show, I've previously I talked
about the Great Red Spot of Jupiter being a cyclonic storm. Now,
why does the Great Red Spot of Jupiter keep going
(52:40):
and going and going like the ever ready bunny who
never runs out of battery? And that is because, as
you can see, hurricanes, when they make landfall, that's when
they dissipate and underneath what because the Jovian atmosphere is
very thick and it's it doesn't have any land formation
(53:04):
underneath it, The Great Red Spot and all these other
cyclonic storms, hundreds of them, keep going around and around
and around. There's nothing for them to short out to,
so they just keep going and going. And Jupiter is
a small, unlit star, so very interesting. And so all
(53:26):
of these things are related to the vertical electric field.
Jupiter has a very large electric field because it's acting
like the sun. And Okay, so I hope this is
interesting and to a lot of people this might be
(53:49):
information you're not interested in. But if you're out in
the desert sometime and you have a campfire, maybe be fun.
Just take the family, go out camp on the desert
and see if we can get a fire going. Doesn't
have to be a big fire, a big fire and
at night or in the daytime, but if there's not
(54:09):
much wind, that's helpful, so that the fire is the
is just the column of smoke and hot gases from
the fire. Just going straight up is the best condition.
And just sit there and start your fire and then
sit back and watch and see if you can connect
into the vertical electric field. Now, another thing, this is
(54:31):
very interesting that the Shamans. Why do the Peruvian Shamans
go up into the mountains and they go barefoot and
they will go up and do their They'll take a
group of people and they will have their prayer vigilances
high up in the mountains. So why do they do
that Because their feet are touching ground, so they're grounded,
(54:56):
electrically grounded, but their head is connect it much higher
into the vertical electric field. Okay, so this is a
way of their way of connecting, so to speak, with
the universe. So very interesting. I just want to quickly
(55:17):
go back to hurricanes because I want to fill in
some of the missing blanks here relative to hurricanes. Okay,
here is the typical formation of hurricanes that you have
rain the ones that we see here in the United States.
You have Africa. The central equatorial region of Africa during
(55:39):
the hurricane season has tremendous rainstorms, cumulonimbus clouds with electrical
discharges down the ground and moving, and so they're connected
to the vertical electric field, and that's what's causing all
the lightning. And just a little note also I talked
(56:00):
about last week. I showed how there are the lightning.
There's a lightning that's been discovered above clouds. So where
does all this come from. The standard explanation from meteorologists
is that the electricity forms from updraft currents in the
cloud and then come shooting out. Well, let me explain something.
(56:22):
If you have a battery, the way it's going to
discharge is internally, and so there's no way for a
battery to form and then electricity comes shooting out the
positive and the negative side of the battery absolutely impossible.
It's not the way electricity works. And that's one of
the problems with a lot of these scientists is they
have very poor, very poor They probably didn't make it
(56:44):
through level one or two physics, let alone electronics, so
they have no idea that what they're spouting is complete nonsense. Okay,
So anyway, the cumulonimbus clouds are forming over Africa, there's
rain and they're grounded. As soon as they roll out
over the Atlantic, they don't have that ground anymore. So
they ionized air above the surface of the ocean connects
(57:07):
to starts rolling up. In the very highest point of
the cumulonimbus clouds, starts connecting to the vertical electric field.
And as the ionized water at the surface of the
ocean starts moving upwards, it forms a column and that
starts rotating, and that's where the eye comes from, and
that's what's driving the hurricane. Okay, So I hope this
(57:32):
is making a lot of sense. But all of this
related to the vertical electric field. And what's interesting, actually bizarre,
is that standard science does not understand or recognize any
of this, So after listening to this and watching this show,
you have better information. All the tens of thousands of
(57:55):
scientists that work at NOAH, the National Oceanic and Atmosphere Administration,
or the National Hurricane Prediction Center. These guys tell you
a quick little story of about a minute left. There
was a guy named William Gray who was the head
of the National Hurricane Prediction Center and developed many of
the techniques that they are still using today. And one
(58:18):
day he got up in a podium with his right
hand man and he said, I'm quitting. Says nothing that
we're doing here has any value at all. It's all
incorrect science. And he got off his podium and he
walked away because he realized that nothing they were doing
was correct. However, because of the way funding works with
(58:40):
the federal government, they keep teaching this nonsense and keep
making these annual hurricane predictions absolutely ludicrous. But the point
I've made before is that government funded science, I'd say
about ninety nine percent of it is just completely because
(59:01):
they have to keep the funding going, so they have
to keep saying the same thing. They can't admit they're wrong. Okay,
well I'm out of time, I'm gonna talk to you
next week, and so we'll probably do some interesting topics
relative to Tesla Coil's next week.
Speaker 1 (59:23):
This has been Master of Science with host James McCanne.
Join us each week as James will delve into historical
figures such as Nicola Tesla, Albert Einstein, and the great
mathematicians as we explore the history of Man, Earth in
our universe as you've never seen it before. Tuesday, seven
pm Eastern, right here on the Bold Brave TV Network,
(59:47):
powered by B two Studios.
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