Transcribed by Nan
iON 32:12
Okay, what's your next question?
Carolyn 32:15
Bert said to you, "iON, you said that a particular quark would help isolate the three new amino acids." Can you expand on this please?
iON 32:24
Quark.
Carolyn 32:25
Quark. You said a particular quark. So, is that the case?
iON 32:30
It is the case. It is the case.
Carolyn 32:34
And is there something we should know about that? Is that a CERN quark that is affecting the three new amino acids?
iON 32:45
No. No, it's not that.... No, no, no, no. That, no, no, no, no, no, no, no. Wait. Slow down. [Carolyn chuckles] That is the, that is an example, but don't use that as your example. Don't use that as your example. You see, because it doesn't apply.
Carolyn 33:05
Okay.
iON 33:08
Alright, alright, alright. Okay. You gotta, you gotta picture this this way. You have to go a...um...
Carolyn 33:13
Sicily 1922.
iON 33:17
Yeah, yeah. Neutron, neutron star. Let's see if we can do it with.... No, let's just do it this way. This is easier. This is easier. We love it. We love it. You're so much fun. [chuckles] Dit, dot, dit, dot. There you go. So now, what's gonna happen is is that you're gonna find out about this, about what to do with a quark star.
Carolyn 33:48
Ohh.
iON 33:48
That's what we're talkin' about, and that's the issue. 'Cause see, it's a subatomic particle, and it takes three of 'em to make up a proton or a neutron. And so, this particular sense of lowest energy in the particle is that shift that change the astrophysics' position of whether it is or whether it's not. Now, some of that you're seeing play out right here, right now. Okay, they've raided Mar-a-Lago. "Oh my god, they've raided Mar-a-Lago." And everything that was there was already unsealed or not the secret identity or whatever that's called.
Carolyn 34:25
Yeah.
iON 34:25
He has to bid[?] to do it. Okay, so now they have a "thing." We're gonna put him in jail, because we're gonna put him in jail, which everybody already knew they were gonna put him in jail. It was already "given" that he was gonna be put in jail. It's not gonna be him, so they can run their little thing. And they're gonna give part of the thing back because the court runs into this place that he's gotta be guilty, we just gotta find the evidence. [Carolyn laughs] "We know he's guilty, he's gonna be found guilty, we just need to find some goddamn evidence!" So, this is the example. So, if you got the neutron star at 1.1 times the sun's mass, that would be enough to move something that's denser than the reality that you're dealing with right now.
Carolyn 35:10
Ohh.
iON 35:10
You see? It's in your inbox, you can look.
Carolyn 35:14
Okay.
iON 35:16
Now you can have the details so you can pan through. You can pan through it and go, oh, oh, oh, oh, oh. So, it refers to that 'cause see, what we do is we give you the words, but we didn't give you the... They don't give you the capacity of how it connects to what we're talkin' about. So, good.
Carolyn 35:32
Yeah. Wow, quark star. Good grief.
iON 35:37
And so that'll help that conversation, which is pertinent, but it's different than what you're sayin'.
Carolyn 35:48
I see. Well, it's almost like the changing environment on all levels, it's got to be part of these three new amino acids. It just made sense.
iON 35:58
Of course, because they can't be otherwise. Why haven't they been already? Why have they not been there already? And we go, we say they have! We say they have! They go where? We go, right there in front of your very eyes.
Carolyn 36:18
Yeah. Wow. Okay. Question. Do aliens also want the salt from our tears like the angels do?
iON 36:29
No, theirs is different. Theirs is different. They see, they see salt as alkaline. Do you see salt as alkaline? Do you see salt as alkaline?
Carolyn 36:41
I've never pH'd it. Never.
iON 36:44
Ah, well, you normally see salt as an acid, right? Typically.
Carolyn 36:51
Mm-hmm.
iON 36:51
They don't.
Carolyn 36:53
Okay. So, that's fine.
iON 36:56
So, therefore, therefore they're going to... No, no, no, no, no, no, no, no. No, they're gonna favor Little Men who aren't full of their salt. They're gonna favor a Little Man who aren't full of their salt.
Carolyn 37:09
I see.
iON 37:09
And they're gonna support the Duffy Doodle Do world of communism or Mao Zedong-isms or some'um, some'um, some'um.
Carolyn 37:20
Interesting.
iON 37:21
Which is silly. Which is very silly, but still pertinent. It's silly, but it's pertinent.
Carolyn 37:30
Yeah, but it's another designation, another deciding factor. Okay. Question:
iON 37:38
Ahh, it's the difference between quarks and gluons. Gluons.
Carolyn 37:41
I'll look that up.
iON 37:47
Okay.
Carolyn 37:52
[typing] Between quarks and gluons. Stick-ons. [slight chuckle] Okay.
iON 37:59
Yeah, g-l-u-o-n-s.
Carolyn 38:02
Yeah. Once the stop codons are replaced with our three amino acids, will there be no more codons?
iON 38:14
No, the codons will be reconnected. They'll be connectů They'll land. The codons, it won't be the end, it will land.
Carolyn 38:26
Okay. So, they don't really... I had another question: Is that why Little Man starts dying? But that's not really...
iON 38:37
Well, that's because, that's because, that's, that's... No, that's not because of that. What that's because of, that's because the cellular strata lays down. The oxidized cells become nonreplicable, and so the new withers.
Carolyn 39:01
Yeah. Yeah. Nonreplicable and wither. How do you keep making 144 double helixes if you stop cell production? You've already answered that actually.
iON 39:18
'Cause you don't. 'Cause you don't.
Carolyn 39:20
Yeah.
iON 39:20
Because you don't 'cause the polymerase stops cutting it off. The mitochondrial process stops when you have a perfect cell. And you don't make anymore, and you don't make any less. You have those cells forever. And you don't have to replicate 'em, nor do you have to slough those off. So then if there is something smaller than a quark, or smaller than a proton -- which would be 2.4 trillion times as small as a grain of sand to give you an idea of perspective here -- you won't have to change anything. It'll be already perfect. It's kinda like your toenails. You know, you have perfect toenails.
Carolyn 40:04
I do.
iON 40:04
God bless your toenails. They are amazing. I mean, it's crazy. It's crazy. Nobody has perfect toenails like that. But your cells naturally... Even though they grow and they do their thing, but you have perfect toenails and they are replaced perfectly. Well, once they [indistinct], you won't have to do that anymore, and they'll just be perfect toenails forever. Good. And it doesn't matter what you do to them. I mean, you can be rough with them and they're still perfect. It's crazy. [Carolyn chuckles]
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