AN OPEN LETTER TO 'MODERN' SCIENCE
Okay, I get it. I just want to nail it down.
You're saying when the Earth formed it formed, already with
ah deep ocean basins is that right?
Ssso two thirds of the Earth even before water was this lower
tectonic plate with these continental sized islands of upper tectonic
plate sitting in them like cushions in the mud? Ah, not mud, but
rock granite okay. Different configuration but like now but with
not water, right?
I'm not quite sure how these floating plates (which all sort
of fit together as if they were one solid shell once) got there,
you know, before water.
How, exactly, did there get to be this odd picture? Gigantic
plateaus 5 miles high set into this lower, much lower land, was
this lower land molten and these plateaus cooler no? Okay that
was stupid, it wasn't molten. But 5 billion years ago were the
continents thick like now? You'd think it would be the same thickness
all over the world, whichever the thickness that was.
So anyway, suddenly, well, not suddenly we get water,
and not just a little water. We got, according to science, so
much water that we not only filled these gigantic basins 5
miles deep covering two-thirds no? Three quarters? You don't say?
Okay 5 miles deep and covering three quarters of our Earth. What's
that? Oh yeah, it also covered half to two thirds of our upper
tectonic plate with another mile of water, to give us the shallow
seas. "Warm seas? Salt water seas?"
Well, they couldn't be warm, right, cause they were connected
with the oceans, and they also must be salt water, right?
No? Warm? Fresh water? I don't understand? They had to be connected
with the oceans.. Had to be. Sea level would have to be a mile
deeper.
Unless you're saying the ocean wasn't as deep as it is now
and it got deeper or bigger.
If not well, what happened to all that water? That's a mile
deep of water all around the world. Where did it go? I mean, that's
more than a quarter of the ocean, You can't ignore this much water,
that's disappeared. It's gone!
We know that, the deeper the ocean goes the colder it is, right?
So how do we get warm shallow seas.
You think the water, the oceans, got deeper? Progressively?
Is this a process? How deep were these oceans at the beginning?
Did the water increase over time or did the ocean bottom just
lurch downward all at once, draining the "shallow seas,"
Doesn't seem likely, does it?
But if we are to believe the Pangea theory, the Pacific basin
was there 5 miles deep 250 million years ago in one form or another.
So as you (we) go back in time there's more? Water? Or less?
Or the ocean floor gets less deep? How far back can we
take this process? And how less deep was the ocean, were land
and ocean pretty much the same way, way back?
If so what does that say about subduction
Okay, I don't get it.
I'm going to try a mind meld with YOU on my science project
cause I can't believe I'm such a miserable communicator. (If I
were you I'd be on this like a fly on dung.)
You see the landmasses of Earth? The water is taken away so
that you don't become confused (as scientists apparently are!)
and think that land masses float like rafts in the water. (I'm
gritting and grinding my teeth at the incredible stupidity of
scientists using word float when referring to continental movement.
For example, India they say 'broke off' of Africa and 'floated'
across the Indian Ocean, to 'crash' into Asia. "Crash into
Asia?" They say this stupid thing! Stupid-stupid-stupid hel-lo
stupid! Do you believe this?
They're planted tree trunks, planted in the ocean bottom part
of the under sea plate. Is this picture clear? What will make
it more clear to you? Try this. Put two books on a table 10 inches
apart. Now get gravel from the driveway or cheerios or frosted
flakes. And sprinkle them around the books about a half inch deep
so the books sit within them. The gravel or cereal is the ocean
floor. The books are continents. The smallest book is India, say.
Now push India toward the other book. What happens to the ocean
floor? Cheerios or basalt, it's the same thing people.
The continents are between 2 billion to 5 billion years old. We're
talking billions. A billion is a thousand million. So it took
a long time to " be" there but, notice, it's not all
2 billion or 5 billion. Some is 2 some 5 some 3 some 4. You see?
It's progressive!
But it's all very old.
Now, the undersea plate is (seriously, not my facts) between 1
year and 180 million years old. Now please absorb that. And it's
progressively aged that is, further from the rift it's older,
closer it's younger. But it's all so bloody young compared to
the land masses.
Also, people the undersea not that ocean off Coney Island or Long
Beach. I'm talking, you go into the ocean and suddenly look at
the map above. No look at it. Additionally look at its organization,
it's not chaotic. It's not a jumble of movement. It's organized,
progressive sensible in all oceans! Go out into the ocean
to the edge of the plate and, you drop straight down for 2 to
5 miles, off the continental shelf. THAT undersea. You remember
the movie "The Abyss"? Remember the vertical drop for
2 to 3 miles, that's the edge of the continental shelf. Shoop,
straight down!
That undersea is 2 to 7 miles deeper down than the upper tectonic
plates. It is newer! Younger. Just recently made, cooled and hardened.
It's not not like the billions-of- years-old-continental-plates.
Okay, try this, model that current science presents to us.
In it Earth doesn't grow, but simply cools, and the crust simply
gets thicker. Then the whole crust all around the Earth would
age and get thicker, equally all around the planet. One planet
with a complete 5 billion year old crust. The whole surface of
the Earth would be 5 billion year old, everywhere-equally. It
would all be the same thickness and get younger only if you go
straight down toward the magma.
But if Earth grew, progressively, exponentially, over time because
of the increasing creation of new matter... This is our picture:
5 billion years ago Earth is moon size. Its growth is silicate
eruptions rising up through the surface and spreading like a geode
or like our moon.
This growth creates heat from friction and pressure. And as new
matter is created and pushed outward (like a geode) a heated magmic
under-surface forms with a thin crust.
As the planet grows, the outer skin cracks and spreads and new
surface is exposed and hardens.
The crust is constantly cracking and spreading exposing new young
hard granite and silicate surface. Gasses are ejected (cause all
elements are manufactured on the inside Earth, all elements. Yes.
All. What else? All!! Some? No, all! ALL!)
As gravity increases gasses are held and fall as liquid water
to the surface. This cools the Earth's surface more and the crust
gets thicker.
Now the cracks and rifts become more profound. As of yet we have
no deep ocean basins. No pacific, atlantic, etc.. But we have
warm fresh water shallow seas. Young oceans. In Utah and Arizona,
China, Africa, South America (or what will become South America.)
These early seas gave us our first life, or first fish, our first
monster fish, these shallow seas are the only seas of a Mars-sized
Earth. This is the growing Earth of the ages of dinosaurs. That's
how dinosaurs got so big! Their oceans will one day all drain
off into new spreading oceans.
Of course, as the Earth continues to grow and rift new deeper
rifts, and as the shallow seas drain of into these deeper oceans,
grave changes are taking place. Rifts break into salt domes (the
only crystal we eat.) which salt the new oceans and kill many
life forms.
Migration routes across the equatorial reptile zone rift apart
and cut off migrating dinosaurs leading to their extinction. Not
so the dinosauric birds who migrate through the air.
As new deeper rifts turn into deep oceans, all the shallow seas
will drain off into these deeper levels, leaving these shallow
seas high and dry. Never to fill again. Never to fill again.
We call these rifts pull-aparts. Pull-aparts are everywhere. You've
seen them all your life. It's important to recognize a pull-apart,
cause that's the only thing it can be.
These are PULL-APARTS. They look like this. Notice it's not just
the vertical drops but it's the flat bottoms of these forms. A
river bed can cut out a curved bed but not a flat bed.
