All Episodes
Previous Next
Dec. 2, 2022 - Jim Fetzer
01:10:10
What DOES Make You Sick - Tom Cowan at the Weston A. Price Conf. Oct. 22, 2022
| Copy link to current segment

Time Text
Okay, I guess everybody came back.
It's a good sign.
This is, I think, the more fun segment, because I get to talk off the top of my head, which I always like to do.
But I also want to thank a bunch of people, or acknowledge a lot of where I got some of this from.
And also to say that if anything I say turns out to be not correct, I would absolutely say that's on me, not on them, because I am misinterpreting.
And those people include Harold Hillman, who I would say is a British biologist.
He's dead.
And if you really want to know biology, you've got to read Harold Hillman.
2,000 pages, three or four different times.
Gilbert Ling is also a Chinese-American who's also passed away, and he wrote about a bunch of this stuff.
There's other people, but I also want to acknowledge that I've been fortunate, I'd say blessed, to work with a bunch of colleagues who without whom I could not have come up I would not have been able to understand what I'm talking about.
As, for instance, Dr. Andrew Kaufman, who I'm sure all of you know.
And Dr. Kelly Brogan.
And there are a bunch of others.
Not a bunch.
There are some others.
So these are people that we can really hammer this stuff out.
Anything that is incorrect or too wonky, it's me, not them.
Not any of those four.
And finally, I've also been blessed to have a very prestigious scientific advisory board.
Some of you may have seen them.
and of course the chairman of the board is none other than Pumpkin.
I told Pumpkin he's famous too and he just wanted more liver.
Anyways, so, the title of this is we now know at least one thing that doesn't make you sick, so now it would be nice to know.
So, Tom, what in the heck does make us sick?
Now, for that, it's of course would be nice, more than nice, To know what we're made of, right?
Because if you have something and you want to know what is wrong with it, it's nice to know what it's made of.
So probably some of you have heard me do this shtick, so don't answer if you've heard it.
But what are we made of?
Water.
There's one answer.
Just shout it out.
Garbage.
Energy, light, love, sound, electromagnetism, the cosmic ethers, wonky thinking.
Lots of different answers.
Just to give you an idea.
So how do I think about answering this question?
So this is because of my, I would say, sometimes commitment to Creating dialogue and understanding between people, especially if they have different opinions.
I must say, I don't always do that, but that's a goal of mine, sometimes.
So, I want to be on safe grounds here.
So what are we made of?
We're made of a head, ears, eyes, mouth, Chest, arms, fingers, legs, toes, and a bunch of other things.
Does anybody have any problem with that?
No.
Because you would be a lunatic if you did.
Right?
Nobody thinks that's not true.
That is what a human being is made of.
You could do it with a cat or a dog or an elephant and say, this is what we're made of.
Now, the other way that I approach this is I think about what other scientific disciplines throughout history, as far as I can tell, what have they said?
Chinese medicine, Ayurvedic, shamanic healing, etc.
Has any of them disagreed with that we human beings have heads?
As far as I can see, no.
So I think we're on pretty safe human grounds here.
If that's true, we have to go deeper then.
So, underneath this head and this chest, what do we got in there?
So, I'm not going to ask you, so don't.
So, I'll just go on.
So, we have things like a heart, and bones, and blood vessels, and nerves, and liver, and kidneys, and all those other things.
Now, here's the next question, because, as I said, There's two ways of knowing.
You can observe, which is what we did with the first, but if you can't observe, you have to do science and know that anything you do doesn't affect what you're seeing.
And if it does, you have to control for that so you're on safe ground.
So how do you know you have a heart?
Well, I was an ER doctor for a while.
I occasionally saw people split open or cut, you know, and you could see the heart.
You can see it on an x-ray.
You can see it on a CT scan.
You can see it during surgery.
And you can sort of feel it there.
Now, you could ask the question, how do you know that shooting an x-ray, which is a very toxic intervention, doesn't create the structure of the heart because you somehow poisoned something that isn't the heart and that it became the heart when you x-rayed it.
Now that may sound like a stupid question, because frankly it is, but it's also just the process.
So you might want to try to check that in some other way.
And you can do that, you can feel it, you can actually, and it's, at the end of the day, it's pretty implausible that, okay, go anesthesia, cut your sternum open, boom, then the heart formed.
Like, I don't think anybody really thinks that.
So we can pretty much discount that, and then we can use our other way.
As far as I can see, Chinese medicine, Ayurvedic, etc., all believed there was heart and liver and spleen and all the rest of it.
In fact, not only did they believe it, they put huge stock in the energy flow through those organs.
Your problem is not strep throat or rheumatoid arthritis or COVID, it's that you have deficient Flow through your kidney meridian.
Now, I'm not saying that that's true or not true, but what I am saying is, that's their whole system.
And so they believed there was this physical organ called a heart, and I think you can be pretty much sure that those organs that we just mentioned actually exist.
So then we go deeper.
Let's take one of them, like a liver.
How do you know, so what is a liver made of?
Hepatocytes, those are liver cells.
Now, raise your hand if you've seen hepatocytes in a living liver in an intact organism.
Nobody.
So you went to the ecosystem of that liver, and you don't see any liver cells.
That doesn't mean they're not there, but that means you've got a problem.
And the problem means you have to do some further experimentation.
Now, it could easily be that it's because we don't have the technology to do that, right?
We don't have a way to see liver cells in an intact liver.
But then you say, well, how do you prove the existence of a lymphocyte?
You take somebody, and you stick a needle, you anesthetize them usually, or at least some part of them, and you stick a needle in, and you suck out a piece of their liver, and then you stain it, dye it with very toxic chemicals, and then you shine a very high-powered light on it, and you see these cubicles that you say those are the hepatocytes, the liver cells.
The question, of course, is how are you sure that, first of all, you removed it from the living organism, right?
You anesthetized, i.e.
poisoned the person in order to facilitate that, so it didn't hurt them.
And then you put all these chemical stains on it, and it's only then that you saw these liver cells.
And like Hillman pointed out again and again, you've got to figure out some way to know that that process didn't create those structures.
Because we know that organisms like bacteria, as I said with bacteriophages and spores and fungus spores, They will create storage forms when stressed.
And you just stress that person's liver, you removed it from the living organism, its nourishment, its whole being.
And how do you know that didn't create the appearance of the liver?
Cells.
And again, I'm not necessarily saying that proves there's no liver cells, but I'm saying that you need to ask that question if you want to do real science.
And that's what Hillman asked for 50 years.
How do I know this?
It is also true that you can get to the point where you can't know.
And it's interesting, you know, going back to the virology, if you can't take the virus out of the sample that you inoculate, the best you could say is we have no actual evidence that the virus exists.
Doesn't mean it doesn't.
We have no evidence.
How different would the world be if, in March of 2020, they had announced, you know, we did some experiments and we have some idea there might be a virus, we can't really prove it, you know, and all the experiments have shown it's not really there, but we think we should lock you down and make you wear a mask and starve your ass.
That's a pretty different picture than what we heard, right?
So they don't say it like that.
So, my point here is, it may not be possible to even prove the existence of these liver cells, or any cells.
Now, what's also interesting is if you actually look into it, there's, as I said earlier, there's approximately 188 different tissue types, like your ovaries and your liver and your heart and spleen and lens of your eye, etc.
And 44 of them we know don't have any cells.
There's syncytium, which means acellular organized tissue that has stuff that I'll talk about later.
In it, there's no cells.
Because why would you break up your lens of your eye into little grids called cells?
Then you look out into the world and all you see is lines.
So you wouldn't want to do that.
And bursa, you know, the covering of joints, there's no cells in there.
It's organized water tissue, which I'll get into, that's much stronger and a much more coherent picture than breaking it up into little cells.
So I think we have questions about that.
Doesn't mean I've proven there aren't, because I don't think it's true.
And we're going to talk about as if there are, but only in those 140 some, not in the other 44.
The other thing about it is if we apply our reasoning with what did Chinese medicine and Ayurvedic and all that, what did they say?
None of them talked about cells.
No cells.
There's no cells in any of those theories.
Never mentioned it.
They never mentioned contagion or germ theory either.
Nothing.
Doesn't mean it's not true, but it's interesting.
They didn't say anything about it.
They didn't believe they existed.
And interesting, like a lot of these things, some guy made up the idea that we're made of cells.
Rudolf Verschau, 1859, he wrote a book on cellular origin of all living things because he saw onions under He dissected an onion and saw that it had compartments and said, all living things are made of cells.
And everybody said, you're nuts.
Not everybody, but a lot of people.
And he won, somehow.
And that became the cellular theory of biology and medicine.
Directly from that.
And it had never been proven in any realistic sense of the word proof.
So, now let's just assume, even though I would still contend that it's not proven, let's just go on and say, so what is a cell made of?
Again, assuming there's cells.
So here you see it.
Now, I think this is like the first COVID virus and the unicorn picture, right?
This is not a real cell.
Everybody knows that.
But this you see in every textbook, every medical student, biology, everybody learns this.
These are the components of a cell.
It has a membrane, it has a nucleus, it has endoplasmic reticulum, That's this part.
The tube goes like this.
Ribosomes, that's this.
Mitochondria, lysosomes, Golgi vesicle, cell membrane, which is a lipid bilayer, a lipid sandwich, or a fluid mosaic model, or 17 other models.
And as probably a lot of people have heard me say, whenever you have something that has 17 different models, You know they don't know what it really is.
Because Schnauzer dogs, there's only one model.
And I know your Schnauzer dog doesn't look like the rest of the Schnauzer dog.
I know that.
But it sort of looks like the rest of them.
So we know what a Schnauzer dog looks like.
This, we don't know it's real, so we make up different models, none of which have ever been verified, which is why we still have 17 different models.
And you can choose which one is correct.
So, these are the things we're told are components of the cell.
They're called organelles.
Now, this is hugely important today because this is the basis of medicine and biology, all of it.
All of it, as I'll talk about in a minute.
So let's just take one, ribosome.
This is a hugely important part of this whole COVID story because the ribosomes are the place where mRNA, right, is translated into protein.
We have factories inside us called ribosomes.
The factories make proteins and we are essentially living proteins.
We are made of proteins, just like this chair is made of metal and fabric.
So understanding the origin of the proteins is huge.
And that's why they put mRNA into these injections to make you make spike proteins on the ribosomes.
Right?
Now, just as an aside, because somebody asked me this, if you say, I'm going to make something out of something, I'm going to make tires out of rubber, and here's the process, right?
I have this much rubber, and I put it, I heat it, and I melt it, and I do this, and then I get this tire.
It's not unusual to ask the person, how do you know that works?
And they say, here's the process, here's 100 tires that I made from 2 grams of rubber.
Right?
And so then you can see the process, you can repeat it, see if you get the same number of tires from the same amount of rubber.
You can do that with pencils, you can do it with anything.
So you would think there would be hundreds of studies of if you put this amount of mRNA into a human being, You get this amount of spike protein.
Right?
You put less, you get less.
Or maybe you put less, you get more.
But usually you put less, you get less.
You put more mRNA, you get more.
And that's how we would know.
We would have a hundred, two hundred, a thousand such studies.
You know how many studies there are?
None.
Why not?
Nobody would do that in the tire world.
You would say, let's see if it works.
No, we have to move at the speed of science.
Which means what?
We have to just make it up?
Yes.
No.
Maybe.
Anyways, so, this is a very important thing.
I'll just say, also, there's a certain interesting thing going on here.
Because, so we're talking about the place in a cell that the essence of you, biologically, is made.
Right?
Protein.
You don't have protein, you don't, there's no you.
If you don't have rubber, there's no tires.
I know they make synthetic rubber.
Never mind.
Right?
So this is huge.
The creation of you is in the ribosomes.
You know what the word ribosome means?
The rib of the body.
Anybody ever heard of that?
How the human being, particularly the female part of the human beings, were made?
From the rib of the body of Adam.
So they're mocking you.
Yeah, we know that the human being is made from the rib of the body.
That's why we call it a ribosome.
Now, the question is, is there such a thing as a ribosome?
Or did they make that up?
And if they made it up, the whole thing starts to look kind of weird.
So, every picture that you see of a ribosome is a perfect circle.
Right?
These are ribosomes.
This is the ribosome on the endoplasmic reticulum, which I'll get into in a minute.
And there's all these.
And if you see proper electron microscope pictures, You see perfect circles, right?
Those are ribosomes.
So, here's another one.
Ribosomes lining the endoplasmic reticulum, that's called rough endoplasmic reticulum.
I'll get into the endoplasmic reticulum in a second.
And I think I have another one.
That's a color picture of ribosomes.
All perfect spheres.
Now, remember, how did they get this picture?
Because this is an electron microscope.
They took some tissue and they put it in a blender and ground it up, macerated it, then they froze it to about 180 or so, 120 or some degrees below zero, and then they dyed it and stained it and put it on a grid and shot a high beam at it to evaporate all the water from the tissue.
So how many people think that you could understand what your hand is made of and what it does if I took your hand, cut it off your body, ground it up in a blender, froze it to 120 degrees centigrade below zero, heavy metal stains, electron beam at it, put it in a blender, shine an electron microscope at it, and I get a dry powder of stuff
Now I know what your hand is made of and what it does.
How many people think that would work?
Nobody.
Maybe one person.
Nobody, that's ridiculous.
But here's the thing.
How come if you ground it in a blender, so if it's a perfect circle on a two-dimensional picture, it had to have been a sphere in real life, right?
How many people, if you take a perfect sphere like an orange, grind it up in a blender, freeze it to 100 degrees, evaporate all the water, think that every picture you get will be a perfect circle?
Nobody.
That goes back to the W.C.
Fields quote.
This isn't possible.
That's not possible to be a real structure.
It made it up.
And Hillman had the genius to take something that couldn't possibly have a ribosome in it and put it through the same process and stain it and get these exact pictures because they're gas bubbles.
Gas bubbles of the typical picture of a dead and dying tissue.
They're just gas bubbles, stained or frozen transmission electron microscope.
That's just the image of what you get of a typical dead and dying, so it's essentially the exact analogy for the viruses.
This is just stained and dead and dying tissue, in which case there's no ribosomes.
In which case, there's no place for this translation of RNA into protein to occur.
In which case, what in the heck is going on?
How do we make us?
The stuff that we're made out of.
Now, let's look at this endoplasmic reticulum.
When you look at this, This is a tube that connects the nuclear membrane to the cell wall.
Right?
Now, why does there have to be that?
Because you can actually put a probe in here and here, in the cytoplasm, that's this part, and the nucleus, and the pH is different.
So that's a verifiable, measurable phenomenon.
Why is the pH different?
There's only one reason pH is different, because the concentration of hydrogen ions, assuming there is such a thing, but let's just say there is, hydrogen ions is different here than there.
That's where pH comes from.
Now, in order for that to be the case, this has to be an impenetrable barrier to hydrogen ions.
Or there has to be some mechanism to keep it from equilibrating, right?
Because if there wasn't a mechanism, they would equilibrate, and they would be the same on both sides of this, and the pH would be the same.
But it isn't the same.
And you can do this a hundred times and it's never the same.
So there's a barrier there.
So you have a conceptual problem of the mRNA, which is made, they say, in the nucleus, Right?
From DNA in the nucleus, makes mRNA in the nucleus, gets out of the nucleus, goes to the imaginary ribosomes, where it's translated into protein.
How does it get out?
Because an mRNA is at least thousands, maybe millions of times bigger than a hydrogen atom.
In other words, you have a situation where you have a wall and you want to let the elephants go out of the door without letting mosquitoes in.
Right?
That's a problem.
Like, that's a real problem!
Like, you got a problem there.
So you can make whirlygig things so it attaches To the elephant thing.
And then it spins around.
It's like when I was 12 or 10.
I went to Long Island and they had those sandwiches that went around in conveyor belts that had been there for six weeks or so.
The time you put in your quarter, and then the thing came around and you picked it.
So they say there's that kind of thing in the membrane, so the elephant attaches on one side, and then you put your quarter in, and then it spins around and the elephant gets deposited on the other side.
Meanwhile, nobody has ever seen the Whirlygig!
But it must be a Whirlygig, because how else did the elephant get out?
Oh, well, there's a tube.
that opens into the nucleus and the elephant gets out this way.
Goes there, it gets translated here.
The ribosome is attached to the tube.
But there's still a problem.
At some point, there's got to be an opening.
And why don't the hydrogen ions get in there and go up the tube and go in there?
Never mind, that's where the Whirlygig is.
But the other problem is there's hundreds of these, or millions, or thousands, or I don't know, you can't ever find out.
One of the things that cues you that this is all BS is you go looking, okay, how many endoplasmic reticulum are there in a cell?
Nobody knows.
How would they know because it's not real?
So they don't tell you, and you can never sort of find it except it's somewhere between 10 and 100 million.
Right.
In other words, there's either none or there's so many.
So anyways, you got this ball in the middle of this thing, and you can watch it under a dark field or some other microscope that doesn't affect it so much, and you see the nucleus making 360 rotations.
It's very easy to see, and if you put a stronger light, it goes faster.
And it could be an artifact, but it seems not to be, because it's sort of living tissue.
So if you've got a hundred of these tethers, ropes, attaching this to this, how does it go round and round and not tangle up the ropes?
And so then you have to go in and untangle the ropes.
And this way, and the ropes that way.
It's nonsense!
It's crazy!
Didn't any scientist actually like go on a merry-go-round?
Say, if you had everybody with a rope, the ropes would get all tangled up and you couldn't do that.
This doesn't exist.
Those are fracture lines, Hillman proved.
You take tissue, and I'll tell you what the cytoplasm is made of, and you freeze it quickly, it makes fracture lines.
And they go from there to there, and that's what we call the endoplasmic reticulum.
It doesn't exist.
And you could do the same with everything in the cell.
Everything.
I'll show you what's actually real in a minute.
But everything on that diagram, well, with the exception of the nucleus and the mitochondria and a thin cell wall, has never been proven to exist.
It's make-believe.
And when you try to understand the geometry and the mathematics and just how you would go about understanding whether something exists, it's just wonky.
That's a scientific term for incorrect.
Now, it's not just in the cell, the maybe imaginary cell.
We have a whole lot of other things in science that As Mark Twain, we believe in but just ain't so.
Neurology 101.
Nerves.
We have nerves.
They have a cell body.
They have an axon.
They end in synapses, right?
Junctions.
There's a presynaptic vesicle, which is a little packet of chemicals, which liberates chemicals called neurotransmitters, serotonin, dopamine, etc.
That swim across the synapse, attach to postsynaptic receptors, and start the next impulse down the road.
That's Neurology 101.
And so, I wrote about this even in the heart book.
If you go, and I won't do this, because you've seen this probably.
Okay, how long does it take between hearing right or left and moving the tip of your finger?
Right.
Left, boom.
It's instantaneous.
Now, again, I tried to find out how many synapses are there, right, from your ear drum, and your acoustic center in your brain, down, out, to the tip of your finger.
How many of these nerve ends, you know, and the nerve goes because of depolarization, calcium and magnesium in and out, and then it goes to the end, synapse, swim across the synapse, go to the receptor, start the next chain.
How many synapses are there between the tip of your finger and your brain?
Can't find it?
Is there a hundred?
Is there twenty?
Is there three?
Are the nerves this long?
This long?
Can't find it.
So I said, oh, there's 20.
I just made that up.
If there's 20, I did find, they said, how long it takes for the neurotransmitter, the serotonin, to swim across the junction?
0.05 seconds.
That means if there's 20, it takes 1 second between hearing it and moving the tip of your finger.
That's just for the synapse, so it's got to be at least twice as much for the going down the nerve, so that's 3 seconds.
So, left finger, right, ready, set, left.
1,001, 1,002, 1,003, boom.
1,001, 1,002, 1,003, boom.
If that's the case with you, you need medical help.
Because it can't work like that.
It can't work like that.
It's nonsense.
And then, if you go and dissect the nerve in total, you never see a synapse.
There is no synapses.
It's a continuous nerve from here to here.
Again, it's structured water, which creates free electrons, or what we call electrons, free electromagnetic energy, which travels instantaneously from here to Japan and from here to your finger.
It's the only possible explanation for that.
But I said, OK, let's go and look in the ecosystem of the synapse.
That's the nerve.
Let's find a picture of the synapse.
There it is.
The unicorn.
It's always the unicorn.
The unicorn and SARS-CoV-2 from Sussex Graphic Arts.
Or that one.
That's a much better one.
That's the synapse.
So you see the guys, those are neurotransmitters.
Think of how much in medicine is based on neurotransmitters and receptors.
Opiate receptors, serotonin receptors, give you drugs to increase your serotonin because that's the chemical that goes across the junction.
It's oxytocin that makes you love somebody.
Not because they're like a nice person or give you a back rub.
No, it's oxytocin.
That's what, because it attaches to the synapse on the postsynaptic receptor, heminucleus, unicornish stuff.
That's what makes you love somebody.
Right.
So there's the picture.
Swims across the junction.
So I said, no.
I'm finding a real picture.
Now, again, you have the problem of, well, maybe it's just too small to see it.
But nothing is too small.
Not nothing.
But most things aren't too small to see in an electron microscope.
Now I can tell you, when I show you this next picture, you're going to think, he's gaming the system.
He found the worst picture.
But here is the proof that the synapses exist and are an anatomical structure in an electron microscope.
Here is the picture proving it.
Which is the part?
That's it!
Right there.
That's the proof.
Seriously?
Tom, I'm sure he picked the worst picture.
I know, this guy's gaming the system.
That's the best picture I could find of what an anatomical synapse looks like.
That's just, I don't know what that is, a stain of a nerve.
That's not a synapse!
How many people are convinced, therefore, there must be synapses?
Nobody!
That's the W.C.
Fields part.
But you don't know that that's the picture that proves it.
Well, there must be because of all these kind of reasons.
Now, another one, slightly different.
How many of you have heard of the blood-brain barrier?
Right.
How many believe there is a blood-brain barrier?
I have a thing, by the way.
Ever since I was about four, if I'm sitting in the audience and somebody says, raise your hand if so-and-so, I never raise my hand.
Even if they said, how many of you people are named Tom?
There's no chance I'm raising my hand.
No chance.
Because I know they're trying to fool me somehow.
So don't do that, because you don't want to be like me.
We hear about this from all the anti-vax people and the vaccines.
They inflame and make your blood-brain barrier leaky.
Right?
You've heard that over and over again.
In other words, we're talking about an anatomical structure.
Right?
There's a barrier.
That's why they call it a barrier.
Like a piece of cellophane.
Stretched along the border between the blood vessels and your brain tissue, so that nothing gets in or out.
Except if you put a vaccine in there, and then it leaks, and so then it gets in your brain.
Otherwise, the barrier keeps everything out of your brain, except for anesthetics, because they know how to get through the blood-brain barrier.
So I looked, and this is a picture.
It's a light microscope picture of a vein and the barrier around it to the liver cells, or the liver tissue.
We don't know their cells.
They don't look like there's any cells in there.
And you compare that, then, To the brain.
So this is the brain, and here's the blood vessel.
It's the same.
There's no anatomical barrier.
There's no cellophane stretched over this.
So, and you keep, you go looking.
Now, just to be clear, I didn't say that everything, there isn't things that get in the brain differently than the liver.
The liver is made of different stuff than the brain.
It has different composition of water and lipids.
So different things will dissolve and get into the liver differently than they'll get into the brain.
But just because things get in differently does not mean there's an anatomical barrier.
There are many reasons why that could be.
Particularly that the water composition is different and so different compositions of how charged something is will dissolve or not into the brain water versus the liver water.
That's just normal.
There is no barrier.
Or at least it's never been proven there is.
That's probably the more technically correct way of saying it.
Now I also did this.
There's a problem with this that I'm a little bit mixing up linear length with volume.
But you go and look, so how many ribosomes are there?
Here they show the nanometers of the number of ribosomes.
You can see the, so that's the size of the ribosomes.
And then this one, the eukaryotic, like a mammalian cell, has a volume of a thousand millimeters, etc.
So the cytoplasm is 70% of that, so all the ribosomes are in the cytoplasm.
One nanometer is approximately 0.001 microns.
So, if you start doing the math, you say each ribosome is 25 to 30 nanometers.
There are millions of ribosomes in a typical mammalian cell.
And let's use 4 million as a conservative figure.
1 nanometer is 0.001 micrometers.
So the total amount of ribosomes in a cell are 25 nanometers, that should say, times 4 million equals 100 million nanometers, which equals 100,000 micrometers.
And a typical mammalian cell is between 10 and 100 micrometers.
Let me say that again.
The amount of, if you do the arithmetic, there should be, the amount of ribosomes should be 100,000 micrometers.
That's linear, it's not quite the same, but you get the idea.
And that's only 70%, so it should be, therefore the total volume of the cytoplasm is 70 micrometers.
So the question is, how does something with a volume of 100,000 micrometers fit into a volume of 70 micrometers?
And you know what the answer is?
It doesn't.
Because it doesn't exist.
Now, the interesting thing about that is, the thing you can see with a light microscope, which is the mitochondria, meaning it's hundreds or thousands of times bigger than a ribosome, which you can't see, This fact that it doesn't fit doesn't even account for the fact that there's also millions of mitochondria in there.
So how does this work?
I mean, doesn't anybody study arithmetic?
So, let's see where I'm at.
If you make a partial list, and this, believe me, is a partial list of the things that I personally doubt whether they even exist, or the function is by no means what we have been told.
You have lipid bilayers or the unit cell membranes, ribosome, blood-brain barrier, endoplasmic reticulum, Golgi apparatus, receptors like ACE2 receptors, opiate receptors, dopamine receptors, serotonin receptors, synapses in nerves, neurotransmitters.
They're just chemicals liberated after a nerve fires.
Lysosomes, pores in the nuclear membrane, an immune system, something called autoimmunity, and that DNA is the mechanism of heredity.
It turns out that the DNA changes minute to minute.
There is no stable DNA.
And, if the proteins are what we're made of, and the whole point of genetics is you have a code, right?
A stable, fixed code, the same in every cell of your body, which is 100% disproven.
We do not have the same DNA in all the tissues and cells of our body.
Period.
Proven.
And so anyway, so that fixed stable DNA makes proteins and the proteins make you.
That's the whole point.
But it turns out there's probably 200,000 proteins and only 20,000 genes or units that make code for the proteins.
And since we're told one gene makes one protein, how does that work?
Where did the other 180,000 come from?
How are we made?
It can't have anything to do with DNA.
And therefore DNA cannot be the code for a biological system.
And it's not the same in each cell of your body.
And it changes minute to minute.
Barbara McClintock proved that in the 80s.
So, yeah, the central dogma, one gene makes one protein, not true.
Cristae, that's the lining of the mitochondria.
It doesn't exist.
Oh, and somebody put this one in there.
The government and associated foundation and institutions care about your well-being.
I don't know.
I have to talk to my PowerPoint person about it.
And the ability to understand logic or reasoning in most intact human beings.
Wait a minute.
All right.
So, why do I do that?
Because you do that, meaning spend 55 minutes, you're still wondering, what are we made of?
How does this work?
What's this guy talking about?
We have to get rid of this garbage.
We're swimming along with misconceptions in a make-believe world.
The reality is beautiful and simple and easy to understand, logical and rational.
Thanks for Sally for sending me this.
If you look at a cell under dark field or the most reliable way to show that it exists, here's what you see.
You see a thin membrane, you see organized water, structured, coherent, fourth phase, easy, it's got a lot of different names.
It's organized into a living liquid crystal.
You see a nucleus in there that's always circular or dome-shaped.
And that's it.
That's it.
The mitochondria make ATP, which is not energy.
It helps structure the water.
It plays the role of, think of structured water like Jell-O.
So you put gelatin proteins And then you put water and nothing happens.
So you heat it, unfolds the proteins, they interact with water, form gels.
We have all these proteins, they're folded up, they bind to ATP at the tip, that unfolds them, the ATP is made in the mitochondria, unfolds them, they interact with water and form gels.
We are living liquid crystals.
And you can see every single intervention in natural Chinese medicine, Ayurvedic medicine, fasting, hyperthermia through this lens.
The system is, and Jell-O doesn't have a membrane really.
It has a thicker outer coating which maybe has some lipids in this case.
So you have an outer coating, you have liquid crystalline water, and you have a dome in the middle that probably has some sort of thing sticking out, which collects energy from the world, like an antenna.
And maybe DNA, which is not a double helix, it's a spiral, is sticking out of the nucleus.
And so the way it works is similar to a radio.
You have a structure called a radio which has certain parts.
The radio has an antenna.
It downloads information coming in to the radio through radio waves.
That gets picked up by the antenna.
Essentially, I hate the word, but downloaded into the radio.
And out of that emerges sound or song, or in our case, proteins and life.
And so, the way you get sick is you mess up that system.
You disturb the gels by putting, as they say in Yiddish, schmutz in the gels.
That could be aluminum and mercury and all kinds of glyphosate, anything that distorts, dissolves your gels.
So you do that in your eye, you get a distorted gel that has a film on it, we call that a cataract.
You have a distorted bursa in your knee, which is just a simple gel, and you distort the gel, and the gel, because all gels create a negative charge, they create an electromagnetic field around them, which is the voltage, the energy of life.
So, if you can't have a gel protecting both sides of your knee, you can't have a charge, then they eventually stick together, and then you have bone-on-bone, and then you're said to have arthritis.
If you're a child and you have stuff that doesn't belong in there, emotional stuff, shame, guilt, bad food, glyphosate, etc., dissolved in your gel, What would you do if you had a poison grape dissolved in your jello?
You could get a scooper and scoop it out.
Or you could heat up the gel, dissolve it, make it run, create mucus, and spit it out.
Or push it out through your skin.
That's what we call being sick.
It makes perfect sense.
First you get a fever.
That dissolves the gel.
So then it runs.
So you flush out the poison grape.
Then you have mucus and cough it up.
And then you recreate a more perfect gel.
That's hyperthermia.
That's the Gerson Diet.
Clean your gels.
That's detoxification.
That's water fasting.
Right?
Everything you see is clean your gels.
Or, what about the input from the radio?
If you have a distorted signal, like electromagnetic fields, so what is the good signal?
The good signal is the sun, and the moon, and the earth, and your good friends, and your dog.
Some dogs.
Other community and love and safety and freedom, all those things, that's the field that we download into the gel to give the gel information to organize progressively into the more and more perfect crystal that is you.
That is life.
That's the system we're working with.
And you can see every reason you get sick is a distortion of the field coming in.
Too much anger.
Too much shame.
Too much EMFs.
Too much negativity.
Downloaded into a distorted water crystal.
So all you have to do is clean the gels and clean up the field and you will heal.
Because that system, none of that other stuff exists.
You just forget about it.
It's all there is, right there.
Now, how do I know that?
It's like Linda says, did you just make that up?
I say, of course I just made it up.
What do you think?
Like, somebody told me that?
Like, who's going to tell me that?
Anyways, so the question is, is water capable of making structure?
No code involved.
So some of you know the work of Veda Austin.
Somebody just told me they do it.
So she has a way of taking water, putting it in a dish, freezing it, and it makes pictures.
Because it doesn't make proteins or it doesn't make songs, because the water doesn't have a voice, right?
A voice box.
It can just organize the crystal.
So it does.
So you ask, so the question is, can water, does water have the intelligence by itself to take in information, download that, and given the right circumstances, make Structures which essentially answer that question.
This would be like taking the information and making protein in us.
Because we have amino acids, etc.
So, you show the dish of water a wedding invitation.
Say, water, show me the wedding invitation.
So, why doesn't it sing, here comes the bride?
Because water doesn't have a voice box.
But it does this, which is an amazing artistic depiction of what a wedding is.
Or my favorite one, which everybody knows, probably some of you have seen it, so don't call it out.
If you say to the water, what is falling down?
Everybody knows that.
Right?
Not the rain, it's complicated.
London Bridge is falling down, everybody knows that.
And you can go on.
We have pretty good idea the water creates life.
And I'm not the first one to say that.
This is May Wan Ho who has spoken at Western Price Conferences.
Every part is in communication with every part through a dynamic, tunable, responsive, liquid, crystalline medium that pervades the whole body from the organs and tissues to the interior of every cell.
Sven Gorky, the man who can control the structure of the cellular systems of water, will change the world.
Marcel Vogel, who knew more about crystals than any human being ever alive, said that thought remains fluid but structured.
That type of category is called a liquid crystal or mesophase, a mesomorphic transition.
We are made of a living, evolving, changing crystal, which is why We are not made of quartz.
The whole COVID play is to make you be made of quartz, not water.
Why wouldn't you be, says Bill Gates?
Because then you can live forever.
You'll just be a quartz crystal, i.e.
a computer, silicone valid.
So you will be made of quartz, fixed, perfect crystal, happy forever, and nothing will ever change, live forever.
But I want to change and grow and evolve and be a human being.
That has to be water.
They're trying to make us be made of quartz.
That's what, in some ways, this is all about.
Now, if you ask your doctor, is this, is cancer, is a change in the structure of the water?
How do I know that?
If you ask your doctor, is that true?
This guy, Cowan, he says, the reason I have cancer is my water has lost its structure.
It's baloney.
So, is it true that you can diagnose cancer with an MRI?
Of course.
What is an MRI measuring?
I have no idea.
It's measuring the coherence of your water.
When the water becomes from gel, like Jell-O, into a puddle, like liquid water, it sends a different signal to the MRI, it's computated, hope that's a word, into an image, And it says, this is different than normal, you have cancer.
We measure the coherence of water to see if you're sick.
And we don't seem to know that.
It says this in every scriptural text in Genesis, before God created earth, plants or people, he created water.
Water and light.
Energy from the world downloaded through a spiral antenna into a dome embedded in the water creates the electromagnetic field which is called life.
You see it in... No one can enter the kingdom of God unless they are born of the water and the spirit.
The spirit is the information field that we have from the outside.
We have created every living thing from water.
The whole universe is made of water.
Vedic water is truth.
All the deities are water.
All the worlds are made of water.
Right?
Got it?
That's the whole shooting match right there.
So, if you want to know why you're sick, think about your structuring of the water, what you're putting into the water, the quality of the water, or the quality, the composition of the field that you're exposed to.
I want to just finish with another interesting part of this.
Okay, but to summarize, all the stuff besides this is make-believe.
We have a system of an antenna, A dome, which the antenna collects the electromagnetic field, the information from the outside.
It is accentuated in the dome.
The dome is embedded, usually in columns of proteins, into the water.
The water turns that into a protein structure and an electromagnetic field that is called life.
Who the hell made this thing?
A dome with an antenna sticking on top, columns with magnetic capacitors embedded in the water.
They did this in 1600 or, I don't know, when otherwise their mode of transportation were donkeys with wooden carts with wooden wheels.
And they made this.
And if you believe that, Or this?
Antenna.
Dome.
Columns.
Embedded in the water.
Thousands of these.
Who made these?
What were they thinking of?
Were they collecting the information from the world and downloading it and turning it into energy?
Another one.
You don't see the water.
St.
Petersburg.
Another one, you don't see the antenna.
Antenna, dome, columns, embedded in the water.
And then how do you make this with a shovel and you can't see from anything from above?
How do you make that?
Even I wondered when I was 10, where'd they get shovels from?
There's no factories.
You can't, like, it's a big deal to make a friggin' shovel.
You've got to smelt iron and get it just right.
I don't know.
Star City.
I used to know, but I don't remember.
Anyways, I think I'm going to leave it there.
Because there's this thing we call history.
His story.
What I want to know is, who's he?
And what's her story?
And what's the real story?
Because I don't think this is the right story.
Let me just finish then with something to put this in a little bit more different framework.
work.
Because there's another person that I want to say thank you to, because without her there would be a lot less hallelujah in my life.
And that's my amazing and beautiful wife, Linda.
And Jude made this version for us to hear.
Well, I heard there was a secret chord.
David played and it pleased the Lord.
But you don't really care for music, do you?
Oh Well, it goes like this The fourth, the fifth The minor fall and the major lift The baffled king composing Hallelujah
Hallelujah, Hallelujah, Hallelujah, Hallelujah.
I wondered if it might be fun if we sang the chorus.
Your faith was strong, but you needed proof.
You saw her bathing on the roof.
Her beauty in the moonlight overthrew you.
And she tied you to her kitchen chair.
And she broke your throne and she cut your hair.
And from your lips she drew the hallelujah.
Hallelujah.
Hallelujah, Hallelujah, Hallelujah.
Hallelujah, Hallelujah, Hallelujah.
Well, they told us of this new disease That brought the people to their knees
There's a question that you'll never ask And a drone behind the plastic mask Choking on a lonely hallelujah Hallelujah Hallelujah Hallelujah
Hallelujah!
I've tried so long to understand debate and switch the sleight of hand the masters of the board It's a cool game and a bitter ruse And we kneel inside these wooden pews With nothing left to lose But Hallelujah!
Alleluia, Alleluia, Alleluia, Alleluia, Alleluia
Once there was a piece of clay You were made to move and move to pray And sent through blazing fire to renew ya But every man is bribed and bought And every lie is sold and taught There's nothing left for you but hallelujah
Hallelujah, Hallelujah, Hallelujah, Hallelujah.
Ooh, Ooh, Ooh, feliz
Now they tell me that we're back to war The one between the rich and poor Between the free and those who wish to rule again It's a story old as the day is long They can break the clay but not the song The sound of an unbroken hallelujah
Hallelujah, Hallelujah, Hallelujah, Hallelujah, Hallelujah, Hallelujah, Hallelujah, Hallelujah, Hallelujah, Hallelujah!
Hallelujah, hallelujah, hallelujah, hallelujah, hallelujah, hallelujah. Hallelujah, hallelujah,
hallelujah, hallelujah.
Thank you.
Just, just, my, my dear friend,
Export Selection