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Friday, April 15, 2022

iON | Argon




Transcribed by Nan

14 July 2019

Bert 0:01
When I was listening to the archives, I heard something that just had my, my mind going all over the place like a pinball. Is it you said that argon will not be in the environment but it will be in the world.

iON 0:12
Yeah. That's right.

Bert 0:14
And we know that the angels are primarily made of, or what did you say -- they're embedded with argon. Something like that I remember hearing you saying. I had it in my notes. Does that mean that there's like a partition? Because argon is an element. Is this a sign of the change in the coming forth of the new periodic table that argon can be separate from the environment, but it'll be in the world? So, like, is that, is that the dimension? Because you just said tonight that a world, you're using the word world and dimension intermittently, and now we can use dimensions. So, is argon like a dimensional element that will be present, but it's partitioned from the environment with the new environment? Too many words, right?

iON 1:10
Yeah. It's a little, it's a little ambiguous.

Bert 1:13
Okay, iON. Go back. Go back.

iON 1:14
It's not bad. It's not bad.

Bert 1:16
Oh, go back. Okay. Is there a dimensional partition that separates argon from the environment?

iON 1:22
Yes. Yes. The AL2(SO4) formula.

Bert 1:30
That's the environment. So that, so the new the AL2(SO4)3NH2, you know, the babababa, the whole thing, that automatically partitions argon away from the environment because of the way, the set up of those elements.

iON 1:50
Precisely.

Bert 1:50
Is that what you're saying? Wow.

iON 1:52
Yes.

Bert 1:55
Okay, so next question is is argon located in the meatsack or something around the meatsack?

iON 2:06
Well, you'll find it. Mmm, you're going off the rails. Go the other way. That was great but go the other way; it'll be happier.

Bert 2:20
Okay. I said around. So, is argon in the meatsack?

iON 2:25
Yeah. It will be.

Bert 2:29
Wow!

iON 2:31
You gotta realize what's happening is you got yourself in a position where oxygen is gonna be replete. And when it runs replete and the pH changes to a negative pH, some'um is gonna fill the void. You're makin' a sponge that's gonna absorb something.

Bert 2:49
Damn. Damn.

iON 2:52
So close you can taste it.

Bert 2:55
Yes! And by the way, iON, okay, my driveway is not asphalt like most people because in this country they make the driveway with little stones. Okay? And they make 'em real [garbled] the thing, but this

iON 3:11
It's called, it's call pea gravel.

Bert 3:14
Pea gravel. But this week I heard my driveway crack a couple of times. You know, the, the gravel cracking. You know, the little stones cracking when I was walking across it. So, is that because I'm accumulating more of this in my body now? The argon?

iON 3:34
Not necessarily argon, but we'd say power.



16 July 2019

Alissa 0:02
Will argon be mutated because the octet rule doesn't hold in the new environment?

iON 0:08
Correct. That's very good. But see, once you -- and chlorines won't hold either. That's what's gonna be part of the gas. The chlorine gas that'll be -- take out the little ones, a lot of the little ones. It's the easiest thing that's not very poisonous, but you're gonna see a ton of it because they're using it everywhere. But it's the easiest thing to morph. So it's on that same line, that is the shift which will cause argon to, let's say, destabilize. Let's just say that that way. That's not exactly what it is, but it's so close you won't be able to tell the difference.

Alissa 0:43
Right. Well, it's so

Bob 0:44
Did you say opposed to octad? Is it opposed to octad? Is that what you -- your question was?

Alissa 0:50
Will argon be mutated because of the octet rule where there's eight electrons.

iON 0:56
Octet rule.

Bob 0:56
Octad or octet? O-c-t-e-t or o-c-t-a-d? Or you bring in another word in?

Alissa 1:05
[slowly] O-c-t-e-t [iON chuckles] I'm gonna do the southern, I'm gonna do the southern spelling with the

Bob 1:11
But, but what is that? Hey, time's running out, Alissa. Don't fuck up. What is octet versus octad?

Alissa 1:16
I'm trying to tell you. I'm trying to tell you.

iON 1:20
The rule. Go ahead.

Alissa 1:20
The octet rule where there's eight electrons in the outer shell of the electron of the atom.

iON 1:27
It won't hold. Oxygen won't hold in the octet rule. And that's what's gonna morph argon. And the chlorine gas will take over and kill all the stupid sons of bitches that wouldn't ascend. Boy, how do you feel, how do you really feel about it?

Alissa 1:49
[chuckles] You told me how to see how the body, how argon affects the body; how, how argon is processed in the body.

iON 2:00
Yes.

Alissa 2:00
So, I, I found some stuff on that, but obviously things are changing with the new environment. It said

iON 2:08
Well, your landscape is no longer mysterious. So, you can find out the answers, but you don't know where it's going.

Alissa 2:14
Right.

iON 2:14
This is where Ed started off with intention and deliberate intention and what you intend and how intention is deliberately intended or, or, or, or.

Alissa 2:25
Yeah. Okay. So, argon is Greek for neuter -- no, argon is Greek which means lazy or inactive. And the name is in reference to its chemical inactivity. And, and yeah. Well, argon's complete octet rule of -- argon's complete octet of electrons indicate full s and p subshells. This full valance shell makes argon very stable

iON 2:59
Valence. Valence. Valence. Valence, Valence.

Alissa 3:02
Valence. Okay, valence. Yeah, not a curtain. [chuckles]

iON 3:05
No, now wait. See, it's not a curtain. See, that's that -- now, look. That little thing right there would foul up your whole conversation. That alone would do you in; the difference between valance and valence. Because see, the coefficient of that in a valence is different than a valance.

Alissa 3:26
Okay.

iON 3:26
That's the 13th ring, the distance in the 13th ring of the Angel Diagram. It will fuck you up if you don't figure that out. Yep.

Alissa 3:34
Okay. Thank you.

iON 3:34
That's all right.

Alissa 3:35
So, this full valence shell makes argon very stable and extremely resistant to bonding with other elements.

iON 3:42
Correct.

Alissa 3:42
So that's why you said it's gonna quote, unquote, destabilize.

iON 3:47
And when -- let's say it simple for everybody else. It'll make it not sticky.

Alissa 3:54
Okay. Oh, I heard you say that before.

Bob 3:57
Hey, Alissa,

iON 3:57
Yes! Of course! We say it all the damn time! There ain't no mysteries around here. Y'all are thinkin' we're tryin' to hide some'um from you for Pete's sake. [Alissa chuckles]. (overtalk/indistinct) as long as we can tell.

Bob 4:07
Alissa, what was the last topic? What's been the topic for the last three, four minutes?

Alissa 4:13
Argon.

Bob 4:13
Argon and valence? Why do you bring in valence?

Alissa 4:17
It's another aspect to the octet rule. The outer valence shell.

Bob 4:21
Okay. He commented on that. Am I quite clear? This phone okay?

Alissa 4:27
Yeah. Yeah, you're okay. You've got a little reverb echo, but it's really short. So, you can still understand you.

Bob 4:36
Okay, go ahead.

Alissa 4:38
Argon, I mean, iON, [chuckles] argon also efficient in chasing air out of your chamber. Is that the aspect of -- you said oxygen will be replete. Do you mean complete?

iON 4:59
No. Replete.

Alissa 5:01
Replete is fully abundant or abundantly provided or filled. Abundantly fed, -

iON 5:07
It will.

Alissa 5:07
- fat, stout, and complete.

iON 5:11
Yes, it will in the C122, H197, O98.

Bob 5:22
That was oxygen you were talkin' about?

Alissa 5:24
Yeah.

iON 5:25
That version. That's the kind of oxygen that will

Bob 5:27
No, I'm standing with that question. Oxygen. Replete.

Alissa 5:29
Yes.

Bob 5:30
Okay.

Alissa 5:30
Yes.

iON 5:31
That will -- that's the type of oxygen that will be replete. The one that's Super Sugar.

Alissa 5:36
Ah, okay.

iON 5:39
Insulinose. See? That's good. That's the difference -- now see? That's the difference between valance and valence. One's everywhere and one's contained in a, in a position or balance.

Alissa 5:49
Ahh.

iON 5:49
Do you remember that it -- do you remember Cheerios? You know, the little heart and the Cheerios? And they gotta hook the little thing.

Alissa 5:54
Yeah.

iON 5:54
You're lookin' for electrons. And you're tryin' to hook the little hearts up. When you find enough electrons to hook up them little hearts, that'd be what you're looking for. Mm-hmm. Good at this, good at this you are.

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