This is how Soft Tissue Flesh and Blood Preserve as Exceptional Detailed Anatomical Mudfossils

Added: 2026-05-05

[00:00:00]Okay, this is about how mud fossils become mud fossils.

[00:00:07]Lungs can come like this absolutely flawless with the plura coating on them and everything which is the rubber bag that they sit in. They all have this rubber bag. This one is completely devoid of it. No rubber bag. It's down to the alvoli, which are these little round spots here.

[00:00:31]For some reason, the the disc got torn away. And there still was blood in here.

[00:00:38]And this is the blood that came out.

[00:00:41]Very little bit, you know, a little tiny little pop pop here and there, but it was plenty. I mean, it was obviously blood. And it obviously came out. It wasn't sitting there like that for forever. So this is two this is the two extreme opposites. You have the lung that's l literally transplantable. I mean that thing is absolutely flawless. Then this one is everything's stripped down and it's been all replaced by silicates quartz. Now what's in between there?

[00:01:18]Well, there's this.

[00:01:22]This is another lung.

[00:01:25]And all of this stuff here, this wrinkly stuff, that's this. It's been pushed off. And we're down to the alvoli here.

[00:01:35]Now, you see this? This is This is all wrinkled and pulled away.

[00:01:42]This is very thick stuff. Your your lung does this all the time. Now, you see how flat that is? This was in a great flood.

[00:01:51]This is all triacic which was the red lead bed, the gray clay and a black cap. This came from that error. Now, not only this, this one flat like a pancake. All almost all my stuff is. This is this one right here.

[00:02:08]And it's in a microscope, you can see all the fibers. I mean, it's just it's it's not deniable. And it's flat as a pancake. And it died like this. And it died with the body attached because that curve right there is the aortic arch.

[00:02:28]The heart sits right behind the left lung. And this is the left lung.

[00:02:35]And you know, I drill inside of them. So I don't take it off the surface to to get the sample done. And this was DNA tested human homo sapien. I'll show you the test. So there's So we have this flawless. We have this partially deteriorated.

[00:02:57]We have that completely deteriorated.

[00:02:59]And we have this one which is in between all of these with all of its alvoli gone and not filled in.

[00:03:07]And this is red blood right here.

[00:03:11]It's still got blood that is quite obvious.

[00:03:15]All this is the alvoli and they have evacuated. So you don't find just all lungs are the same. It's just not that way. You have to understand the conditions it was in when it became preserved.

[00:03:32]What was the fluids basically? And what was the surrounding?

[00:03:36]Was this in inside of a mud capsule? Was it [snorts] laying flat? These were laying flat on top.

[00:03:44]These were on top.

[00:03:46]Other ones were inside the mud itself.

[00:03:51]These died laying flat on top of the mud it looks like to me.

[00:03:57]And and some of them were absolutely gigantic. And I have those and I have those DNA tested too. So, and by Jess uh well, I'll show you. They were cat scanned as well. By Jesse Garen Associates. Nicest people you ever want to meet. They're in Canada and the USA.

[00:04:16]Jesse Gam and Associates, they [clears throat] they uh CAT scan car engines and jet engines and everything else. These guys really know what they're doing.

[00:04:30]They did seven cat scans for me. No charge.

[00:04:34]No charge. These are the best. They were nice. They were so They were so I just can't say enough about good things. Anyway, let me show you some of the CAT scans. I'll show you the DNA tests. You make your own decision.

[00:04:50]If you take if you take what is being told to you by geologists and so forth, it's just not right. This is not just basaltt and limestone and mud stone. So, these are body parts that transitioned into stone basically because of nucleophilic substitution and invasion.

[00:05:12]All right. It's all it is.

[00:05:18]Okay. So, don't forget these are the lungs. Flat as you can get.

[00:05:25]And this is a lung, too.

[00:05:28]And that's just was in something that ate in through it. There is some crystals in here and I I'll show you those crystals at some point if I remember. Now, this So, this is done.

[00:05:41]We're done with the lungs.

[00:05:43]All right, let's take a look at this.

[00:05:47]That ball is the ball of a bone that was on a finger.

[00:05:56]And there's the tendon that came down from this is right here. Just like this on your finger. That ball is this ball right here.

[00:06:10]This tendon with that little round spot right there coming down is just basically this tendon right in here somewhere.

[00:06:22]This is the muscle that weaving right there. I don't know if you'll be able to see it or not.

[00:06:34]That weaving is what weaved around the bone.

[00:06:42]So that weaving went right around his bone. So you could It's a muscle.

[00:06:50]This is exceptional to find this in this. I can see the muscle here. I can see the tendon here, the center of the tendon. This is the big flat piece right across the top of the tendon. This is laying down flat like this. This side's eroded enough that I can see the bone ball. And down here is where the bone broke off.

[00:07:17]All right. So, I I have a lot of parts.

[00:07:20]Oh, I didn't even show you the hand yet.

[00:07:23]So So, we've seen the lungs. This is a finger from this hand.

[00:07:31]All right. I have the whole hand.

[00:07:34]It's been laying around here for 10 years. And this silvery part is the grip skin. And what is grip skin?

[00:07:44]Grip skin is the coating that's on on your thick fingers, your toes, your elbows. That's grip skin. It's tough skin. And it peels off like that. You see it peeling?

[00:07:58]You see how it's peeling?

[00:08:06]It's peeling right off. And that silver is covers your whole here. This little cleave here is where your it pinches together your hand.

[00:08:20]Right there. These are the pads. Right there is your tendon. If you put your hand back, pull it back hard, you'll feel that tendon. The same tendon is here. It's a left human hand. And it's human. It's DNA tested.

[00:08:35]So, I got fingers and I got fingertips. And they've been CAT scan. They've been DNA tested.

[00:08:42]Here's one of the fingertips right here.

[00:08:45]And this is where you can see the nail bed.

[00:08:51]Other than that, it's just looks like a a block.

[00:08:55]But I could see the other parts of it that were and of course it was part of this whole uh hand from the back.

[00:09:07]You can see the bone and then you can see the tendon over here and the tendon over here. And why is one of them black and one of them white?

[00:09:18]I said, "Why is one of them black and one of them white? Explain it to me, please." Well, all right. All right. All right.

[00:09:26]Two different colors of blood.

[00:09:29]Blood's coming up here. One of it is veins, one's artery, and they're two totally separate. The This was probably the artery, and this was probably the vein. It's hard to say, but this this is a 2D cat scan. Same thing. Jesse Grant Associates. Fabulous, fabulous people.

[00:09:48]This was the other one. They did this here. And they did all kinds of they did a bunch of stuff. Most of it didn't show much. I have to be perfectly honest with you. The 3D you could see, but nah, very difficult.

[00:10:06]Uh, as a matter, I'll show you one.

[00:10:08]Okay, before we get into this, I'm going to show you the things that I had DNA tested. Now what you have to understand is I, Roger Spur, not Helix Bolabs.

[00:10:21]I, Roger Spur, extracted the samples from these from these body parts, put them in glassine bags, sent them off to have them evaluated.

[00:10:36]The the uh DNA sequences were excellent.

[00:10:39]The body parts are anatomically perfect.

[00:10:42]I didn't contaminate them. I was very careful. And I I know I I said somewhere in here that I sent this off. I didn't mean I sent the whole part off. I mean I sent the extracted stuff that I extracted. He had nothing to do with the extraction. All I said was I want the, you know, biology of what these three different samples I'm going to send you.

[00:11:08]And that's what the samples I sent him.

[00:11:11]and he analyzed them and they turned out to be human DNA.

[00:11:19]Okay, again, this is extremely transitioned. You can see it's virtually entirely mud, so you're not going to see a lot.

[00:11:30]However, with a trained mud fossil eye, you can see this right here.

[00:11:39]You see that very faint? This is inside the bone or inside the stone.

[00:11:47]Now these holes are I believe for blood uh nerves whatever they are.

[00:11:56]And some of them might be tendons. I don't know. It's very hard to tell. And that's the problem. You see here it's just like a blank slate.

[00:12:04]I can see what this is though. That is the bone.

[00:12:09]That's the bone.

[00:12:12]All right. Remember I showed you this one here.

[00:12:15]Remember where there it is right there.

[00:12:17]There's the bone. And what does a bone look like in the hand? Well, that's what they look like. They look like this little inside of a bunch of flesh. Well, that's actually we're up here.

[00:12:30]You see that? That's that's the apical tuft.

[00:12:38]I have one around here somewhere if I find it. Hold on a second.

[00:12:46]You see this? That's an optical tuft.

[00:12:48]They have all these little holes in them and balls lock in these holes and then the balls the straps come down. That's your where how your tendons are built. So you can do this kind of stuff with your fingertips.

[00:13:04]And that's the apical tuft right there.

[00:13:06]It fell off of a of a finger. I have so much stuff here that there's just it's just unbelievable. And I I really haven't even been searching. It's just there.

[00:13:18]So I can see this inside the 3D.

[00:13:24]That's about the best you're going to see. Membranes have a whole different situation to them than flesh.

[00:13:34]Membranes separate the inside of whatever it is from the outside of whatever it is. In this case, the bone is in its own package. Like I have a bone here somewhere and they have their own little package they're in.

[00:13:53]All right. This a bone.

[00:13:57]And it's one of type of bone. It's one of these type of bones that hooks in with another bone. That's a ligament and it's broken off right here. There's a tiny little taste of bone there that you can see in the microscope. That's it.

[00:14:12]But it's in its own envelope. They used to call this tunica.

[00:14:16]And it's look, see this seam right there? You see that? It comes up in seams and ties together like a little crescent roll.

[00:14:29]And then of course I got whatever I I'm not sure. I don't think they're the blood vessels, but that's the bone. Now, you wouldn't see anything in this. You'd just see this.

[00:14:42]It' be just like that.

[00:14:47]That's the problem with with the mud mud fossils. The other ones, no, the other ones you could see a little bit here and there, but that was long ago that I did that.

[00:15:00]And uh I think it was like uh 12 years ago we did these Jesse Gran Associates did it for me. I was just stunned at how nice they were. Absolutely stunned.

[00:15:13]Uh now I have not only the little ones which I call this little [laughter] that's the guy's knuckle and that's little.

[00:15:26]All right. Remember the tendon comes down. That's the center of the tendon.

[00:15:32]See it? And that's the muscle.

[00:15:37]And that's the top of the finger right here. And the tendon I showed you was going this way. Now, let's look at some of the big Well, let me let me show you the bigger one. I have this one right here.

[00:15:54]All right. That's 2 and 1/2 ft or so. this way. And it's 3 ft long.

[00:16:02]This way.

[00:16:04]This is a fingertip.

[00:16:08]It's a fingertip.

[00:16:11]Now, look at it carefully. Just take your time. I had to break this piece off to get in to get some blood.

[00:16:20]And the reason I could I broke that piece off is because I could see it was it cuddled right up to the fingernail just like this is a little bit separated.

[00:16:30]So I figured that's the best place to pop it out of there when I hit it and it just popped right off like a scab. And it it is that grip skin. Now take your time to look closely at things.

[00:16:45]This curve is the fingernail all the way up and right around here and right around back. Now, it's a little bit worn off here, you know, eroded. So, you don't see how it comes down, but and as a matter of fact, this is not on my property anymore, so I don't have access to it. But it this is the fingernail.

[00:17:10]And that is like the the thickness of it would be thicker than it is here. This piece here is like if you had a little piece, you know what I'm saying? It's eroded here. It's flaked off. Whatever you want to call it, but it would have been thicker.

[00:17:27]This piece came off just like a scab.

[00:17:32]It didn't fracture.

[00:17:34]It popped right off. And it was or is a fingerprint.

[00:17:43]All right. Here it is right here.

[00:17:49]These are sweat pores.

[00:17:52]And that's a fingerprint ridge.

[00:17:55]All right. So this is they would call this mud stone and I agree.

[00:18:02]These are the sweat pores. See the sweat pores?

[00:18:08]This flaked right off just like this.

[00:18:11]Snap right when I whacked it. Came right off. The fingernail is up here. Huge, huge, huge fingernail. That's one fingerprint ridge. It's about the width of my thumb.

[00:18:27]This is about accurate. My thumb even actually right about there is my thumb is about the same size as that thumb.

[00:18:42][clears throat] Stuff is just enormous. Absolutely enormous.

[00:18:52]So this he this he hand I have other parts from this that body part body and as a matter of fact this is a hair follicle and I think it's from this guy here cuz it fits about the same size. Here's well you saw what I have here and it broke right off right along those lines just like that. As a matter of fact I have it. Hold on.

[00:19:18]You see this?

[00:19:21]This is the underside of that.

[00:19:25]It was just laying on there basically.

[00:19:28]This is that.

[00:19:34]This is this here.

[00:19:37]This is this piece. See it?

[00:19:43]It was just laying on there just like it is here.

[00:19:47]I thought it was just going to be one big stone and I got to smack it and it's going to crack inside and all that. No, just land on there. It popped off like a scab. Now, this is fractured. This This is the skin itself is this thick. The skin is about that thick.

[00:20:03]So, this is a fracture. Yes.

[00:20:07]The skin that's where the skin is cracked.

[00:20:11]The rest is simply where this is like attached. It's almost like velcroed. [laughter] It was bizarre as it is. And I sent that off for DNA testing and um it came back excellent quality DNA.

[00:20:34]Here's the DNA test.

[00:20:37]Where is it? Come down here. Down here.

[00:20:40]Excellent quality DNA sequence obtained from the 36-in tip and the lung. And I showed you the 36-in tip was the thing that this came off of. And once I got underneath this, there was plenty of blood. And the other one was the lung that literally bleeds. And I will show you that now. And they were homo sapien mitochondrial B and Dloop region. And they were excellent quality. They were just literally blood. I'll show you what what kind of blood you can get out of these. You can't imagine the blood is literally blood.

[00:21:27]Okay. What we're going to be looking at is blood running out of the bottom of this lung. This was I extracted stuff.

[00:21:35]Now the thing is I extracted these things. Nobody else did. I extracted the samples and sent it off. So I didn't send the whole lung to the to the place where they did the DNA. I sent the samples. Now I have this right here.

[00:21:52]This part in the microscope over here. I put a little water on there and we're going to see what it looks like up here in the scope.

[00:22:06]All right. You see how red it is already? [clears throat] Now, watch this.

[00:22:17]Just give it a few seconds to work its way in there. Now, that's just nothing but pure hydro H2O.

[00:22:26]Now, watch this.

[00:22:30]All I have to do is just stir it up a little bit.

[00:22:36]And blood will start to flow.

[00:22:50]See, I'm not scratching hard. I'm just sort of rubbing over the surface a little bit to get it to mix in with the blood that's there. It's just solid blood.

[00:23:07]Hold on.

[00:23:10][clears throat] Hold on one second. Take it easy.

[00:23:27]Just watch in here.

[00:23:36]If I dig in just a little bit, red blood will just come gushing right out of there. See?

[00:23:52]See what it is? Oh, that's just nothing but red blood.

[00:24:02]So there's no question it should be good excellent quality is just red blood. Now again I drill down inside of I don't take it off the surface. This could be contaminated absolutely but I don't take it off the surface and I'm careful when I do it. I use all the precautions and all that. This is literally blood.

[00:24:24]And this down here is is actually literal blood from that other lung that I didn't have tested. This is the one I just had tested.

[00:24:34]All right. You should be familiar with my goose friend Caesar.

[00:24:40]Now Caesar still has his feather patterns right here in the back of his head.

[00:24:49]You see the feathers?

[00:24:52]They come down this way and the big flap around the the top is his eye and his beak.

[00:25:04]And that's a little different than this is his little nose hole.

[00:25:09]All right. Now, this is his neck.

[00:25:12]This is what happens to the And this, of course, is his neck as well. And he's flat on one side. And he does show the throat architecture right here. You should hopefully you can see that.

[00:25:28]But he died laying like they all did.

[00:25:29]They all died in the great flood. I mean it must have been bam then and then they all boiled because this this impact was so enormous that it's the oceans went everywhere.

[00:25:43]Plus it condensed the atmosphere and caused all of the atmosphere to rain. boiling water and that's a lot of the water came from that and then it would have eventually evaporated off but the Smithsonian says it was over a year it boiled for the oceans.

[00:26:02]Now this that's his artery and I did a catalyze test on there and it just bubbled like crazy.

[00:26:11]But this is what happens to all the bodily flesh, bones, everything. You don't see any bones in there. Well, I know he's had bones in his neck. There's no question there was bones in here.

[00:26:26]I don't see any bones. That's where bones. Well, you don't see them because there they turned. They they transitioned.

[00:26:35]All right. Everything here has transitioned. Even the feathers.

[00:26:40]These are feathers and they transition. Now you have different types of transitions occur depending upon the material it was. You see this out here? This is flesh.

[00:26:53]See the black? That's flesh. This down in here, you're into bone area. And this is where his throat was like where he ate stuff. So you see the two different colors.

[00:27:06]You see the black?

[00:27:09]You see the not quite blackish.

[00:27:15]Everything transitions in one way or another.

[00:27:19]And usually they're just not recognizable as you know if I just showed you this and said what is that? You you wouldn't know. And I wouldn't know either really to be honest with you unless I really did some examination. But I do know what it is. is Caesar. My buddy Goose Caesar Agustas.

[00:27:42]There's his feathers.

[00:27:46]I don't know what happened here, but that [clears throat] happened before he got transitioned. It looks like to me.

[00:27:55]Anyway, that's Caesar. That's his perch over there. All right. Now, we're looking at everything differently than we were looking before. if you're looking at all because if you're looking at all everything now should be different than it was 10 minutes ago.

[00:28:16]Most people that are here have been working with me for years and I mean years. It's been I've been doing this on the line here I don't know well over 10 years now. This was from a friend of mine Phil Harris.

[00:28:31]Unfortunately Phil passed away. Rest in peace, brother.

[00:28:36]Last time I talked to him, he found this oh, years and years ago, 10 years ago.

[00:28:41]Well, more than that.

[00:28:44]And um we he sent me these pictures and this is the top side of the heart.

[00:28:51]All right. He saw this and I had put out a challenge to everybody and I'm going to do it again today. A 10 15minute challenge.

[00:29:00]If you go out and you can't find a mud fossil within 15 minutes, I'd like to hear from you. You should find something.

[00:29:10]And it's probably going to be something small. Fingertip, whatever. This is a heart. He popped it here. I think he hit it right here.

[00:29:20]It opened right up. And there's fresh red blood in there. Look at right as his fingertip. And here's the other side.

[00:29:30]was here.

[00:29:33]So the bottom part was up against this.

[00:29:37]These are the This is plumbing. The heart has little tubes that come here and over there and over there and valves. And these are the two valves ma mainly. And these are all the plumbing that goes off to your lungs and all the rest of your body.

[00:29:53]And he found that within I he told me it was like 10 minutes he walked out and he found it.

[00:29:59]And uh I have other people found fabulous things within 10 [clears throat] minutes. Fabulous fabulous things.

[00:30:09]Um so I showed you my stuff. I showed you the DNA tests.

[00:30:16]I showed you the CAT scans.

[00:30:18]I didn't show you the triacic footprint.

[00:30:21]This is a footprint of a notoe. See this round toe? That's not a shoe. That's the foot. As a matter of fact, I got that here, too.

[00:30:37]All right. Here's what a foot is. And if you've got a podiatrist, go get them and ask them about this.

[00:30:47]You got this right here. All right. You see that? If I put it in the shadow, you can see it. I hope that round circle.

[00:30:55]That's where the tibia comes down.

[00:30:56]That's a big bone in your leg.

[00:31:00]And then you have a fibula which glue. It literally glues here. And it works with the tibia. So you can do all these kind of things you do with your leg. But there's no real major attachment other than the ligaments.

[00:31:17]Now coming forward up in this area. What do we got? I think we got springs.

[00:31:24]And I think that right there.

[00:31:27]Hold on. Let me put a little moisture on there. See if we can might change things a little bit. Might not. Who knows?

[00:31:40]I think that's the pin that these two springs rock on and they go this way and they butt up against here.

[00:31:56]All right, think about it for a minute.

[00:31:57]Take your time.

[00:31:59]There's two like two little balls here and attached to these springs.

[00:32:05]If I'm right, this is just a guess.

[00:32:10]That would be the pivot point and it would be nonmoving.

[00:32:15]This would rock this way and push up against this, which is not moving either. So, this is going to expand as you walk. So, you go this way, it sort of stretches out the spring and then when you put your foot back, the spring goes down where it is. We have other ones that are absolutely have springs. No question whatsoever. This one I would say is does too, but hard to say. But that's not a sole.

[00:32:46]That to me is the the um compression point for the springs. Now, right here is where when you to step, this has to wrinkle up. Wrinkle.

[00:33:02]Wrinkle, wrinkle.

[00:33:06]And this has to wrinkle up, too.

[00:33:08]Wrinkle, wrinkle, wrinkle every time you step.

[00:33:12]Now, all of that stuff, this is the hide.

[00:33:18]This is not a shoe. And it all comes together here and pins right in that center. I thought this was like a shoe or something with a a medallion or something in the front, but it's not.

[00:33:29]All the skin comes together and it sort of pops right together there in the center. Isn't that something?

[00:33:38]And right here you can see there's I can see a little bit of blood in here. And wherever you see the blanched out looking stuff is where there was a lot of wrinkling going on. A lot of wrinkling going on here. And a lot of wrinkling right here at the the leg.

[00:33:57]That's where you see all of that wrinkle stuff.

[00:34:06]So, don't forget that's the fib tibia fibula wrinkly stuff, wrinkle zone, and the springs inside make it go up and down. And like I say, we have other ones that are there's no question. And another one was found in another 10-minute challenge. I swear I am not kidding you. It was um Tish Eagerton. I think she's in Missouri. Hold on.

[00:34:36]Now, this just exploded my mind. I put out another 10-minute challenge. This was years, 10 years ago, probably. And Tish Eager went out and found this and a bunch of feet that she found that and a [clears throat] leg. Where did I show you this? Absolutely stunning. Now, this is the heel stone is the heel. And this strap that runs up is this strap here. I have this in in closer detail. Now, I told you we have most with springs.

[00:35:08]Those are springs. Those aren't bones and and tendons like we have in us. And I'm going to show you this very closely, but this one's mine. And it's it's complete and it's flawless. So, I I really don't know what's in there. this.

[00:35:23]I know what's in there. These She has a bunch of these. And I know that strap attached to that ball. No question whatsoever. That's it.

[00:35:37]All right. This is the spring foot.

[00:35:39][clears throat] All right. Now, this is the one I have here. That's basically flawless.

[00:35:47]However, this wrinkle zone shows you something cuz this is the wrinkle zone in this one. This was the top of the foot. There's two springs in here, and I'll show you how they work. And that's the heel, which I showed you a moment ago, and a strap that would have come to the tibia that rocked in this cradle.

[00:36:06]So, this we don't need to see anymore, but this is I don't know. This could be a springfoot. I don't know if it is or not because I don't know what's inside of it, but I do know it has it's not like our feet, but it's it's got most of that architecture. It has the tibia and the fibula and the heel, all that stuff, the arch.

[00:36:33]But I think I I honestly do think there's a set of springs in here. This one. This one. And they come back and spllay out against here, giving you a little spring to your step.

[00:36:48]I don't know. That's a guess. All right.

[00:36:51]Just so we don't lose track of things, this is the strap that I say is this strap.

[00:36:58]Tendons. When they break, they're under tension.

[00:37:05]And when they snap, they create a wrinkle. zone when they were alive. Now, when after they die and they're preserved, they don't make that wrinkle zone anymore. So, this guy had to have died during this event. Is a that's the way I'm taking this because you watch right up here. There's going to be a really serious wrinkle zone. And they just don't wrinkle once they're dead. I could take tendons now that are in mud fossils, break them, and they just break. There's no wrinkle zone once they're dead. Let me show you the wrinkle zone. I'll show you the heel.

[00:37:42]I'll show you the compression point down here. And then we'll talk about these two springs.

[00:37:50]All right, let's concentrate on the heel.

[00:37:55]That's the heel bone.

[00:37:59]That right there is the little piece underneath your heel.

[00:38:04]That is the impact point.

[00:38:08]This is that strap. Now, remember I told you about the wrinkle zone. Look at this little fuzzy looking stuff here. That was this strap and it went up to the bone at the top.

[00:38:24]Now, this had to have happened when this thing was alive to my mind or damn close because that wrinkle zone is only there because there was it was pulling and that's what tendons are. They're under tension.

[00:38:40]They're tendons. They're always under tension. They're always like pulling each one bone against the other. That's just how they're made. And then when it snaps, bing, you get this thing. only if it was alive. So I say this was alive when this event happened, ripped the guy's leg off and you ended up with this and maybe this eroded and well probably this eroded over the course of time but this wrinkly stuff I I don't see how it would have happened unless it was alive. All right. So that takes care of the heel.

[00:39:19]It takes care of the tendon.

[00:39:22]It takes care of the place where you step, the compression point.

[00:39:29]All right. There's some other stuff going on. I don't understand some of the stuff back here, but I do know this is the heel. Now, let's go up to the to the springs.

[00:39:43]All right.

[00:39:46]Both of these pins would be not mo movable. They won't move. They're just stuck there.

[00:39:55]It's like a jig.

[00:39:57]And then you put your tendons on.

[00:40:01]Now, these are springs.

[00:40:05]They're not tendons. They're they do a s very similar thing. When you step on the front of this, this is going to be the compression point and it's going to lift it up.

[00:40:18]When it would lift up, this would have to rock because it's pinned here. So, the first thing is going to happen, it's going to open up a little bit here. So, if you just barely move and you might just get a bump, put a bump, put a bump. You get a little harder, you go a little more as this goes, eventually it's going to pull this in. You see that? It's all one piece.

[00:40:42]It pulls this in. Well, what's it big deal? What's this right here? That right there, my friends, is some kind of a little cable.

[00:40:52]And it appears to go up. I can't be sure of this, but I I think quite likely it appears that little cable appears to go up. And there it is right up there pinned up here like somebody made this.

[00:41:07]It almost looks like it was designed, created, and made. And made very elegantly cuz what's the big deal if this pulls in? There's a spring here.

[00:41:18]Where does the spring go? It goes into this crevice here.

[00:41:22]It has to have somewhere to go. Just because this pulls in a big deal. This is a tight spring and it So this one goes springs. When it gets to the end of its travel, this is pulled in and that goes to the end of its travel. So, your whole foot might go way up here. And it's going to flop right back straight down again once you're all done. This is some kind of a gooey stuff that runs between here and here for like a bumper pad all the way up here. That's what I'm That's how I'm looking at it. I'm pretty sure that's Well, it looks like it to me.

[00:42:01]some kind of gooey yellow looking stuff.

[00:42:06]And I have this, she sent me all this stuff. I have this here and I have the leg and everything. I said a whole leg.

[00:42:14]So I'm seeing this as spring foot and this was she was on a 10-minute or 15minute um challenge when I found these foot feet. I mean just everything. I was just shocked when she reported in [laughter] and that was years and years ago. Nobody will look at it. Nobody will look at it.

[00:42:38]This is what really is very hard for me to been a rough road, my friends. No, this is a little ball which sticks right here. It's on the bottom of a foot.

[00:42:52]Well, what if it was a big foot? That would be the ball.

[00:42:59]This is a foot has no toes. This is like a pointy foot. I'm telling you, there was all kinds of different creatures here. All kinds. I have staggering number of different types of feet. And this all these blocks and stones are the bodies the bo the body of this creature that had transitioned during the great flood.

[00:43:25]And at first I was wondering how where did all the extra water come from?

[00:43:28]Because they always talk about that. And I think it even said they poured it out of heavens. Well, yes, because a a body the size of Venus. And apparently that's what came at us, which is about the same size as us. its fields would have compressed our fields so strongly that it would condense all of our atmosphere or or whatever atmosphere it was plowing into and turn it into water. There's water vapor everywhere. This would turn it into water as a just like a compressor does.

[00:44:03]When you run a compressor, it compresses the air, but at the same time, it squeezes out the water. And that's what it did. It squeezed it out and it made it all swirl around the whole world bring it all up to salacious ooze which is at the bottom of the ocean floor 2.5 times heavier than water but ooze all that went all over created all the silicon that created all these preservation and I think I have this process figured out pretty well now and the the the giants were here they were everywhere they were everywhere.

[00:44:43]And these are just little puppy giants.

[00:44:45]I have I have bigger ones than that here. There's a hair follicle from right off. This is off all my stuff is right off my property. There's a hair follicle.

[00:44:58]Here's where the erector pilli muscle attached so your hair can go up on end when you get scared.

[00:45:06]This is where the hair came out. This is the sebaceous gland. That's the oiler. Oils up the hair.

[00:45:17]That's the root ball. And the pillia down at the bottom.

[00:45:23]It's 2 in wide.

[00:45:26]I I think that's about a 200 ft. I think that's the same guy probably as this guy I was showing you before.

[00:45:36]This one here. Cuz that's 3 ft long. a fingertip and there was other bones right around in this area that were completely down to the bone.

[00:45:51]Now, I had this property and I sold it, so I don't have access to it anymore, but it is there and I have the DNA test.

[00:46:05]Um, what else?

[00:46:09]Hold on a second.

[00:46:12]You know, I I think I've been battling on here long enough. I I And I think I might have talked about fool's gold.

[00:46:18]This is saturated with gold and fool's gold. I think they're both here. You see how crisly shiny that is?

[00:46:28]And that a lot of that's the facets of the fool's gold, which is pyite.

[00:46:34]But I pyite is also is found with gold.

[00:46:38]Now this, as you can see, is a piece of coral.

[00:46:43]These both started out as the same thing.

[00:46:47]These were both the same thing when they were alive. And this was alive at one time and so was this. And that's going to be the next video. We're going to go into gold and fool's gold and all that stuff. All right. I hope you got something out of today's presentation.

[00:47:06]As I mentioned, anything can turn into anything.

[00:47:11]All right. So, just because you looking for a a lung, it doesn't have to be basalt. It could be well, here's a heart. Here's here's here's a heart.

[00:47:24]And this had this is from the Yola region of uh Australia. And it's cut across. These are the heartstrings, ventricle walls.

[00:47:35]This is the plasma. And this these color little bits are transition metals. It was laying like this. It's cut like this. And that's up because the metals are heavier. So anyway, there's a there's a lot to start to consider when we start to consider what we should be considering and have not considered.

[00:47:58]So I want you to consider that and then we are going to go into this and we're going to consider this and how these things ended up being what they did. What was the process?

[00:48:18]That's what I like to go through to try.

[00:48:19]I like to get to the details of the details to where it's very hard to dismiss what I'm saying. But that's been a problem because I I can't get people to engage because there's no way to dismiss what I'm saying basically. I don't I don't think so. I'd love to see somebody trying and you know even like this footprint that foot I showed you is exactly fit in here and his footprint is in there's a red bed gray clay black cap. The footprint is pushed gray clay down through the red bed and then the black cap came on top. That's the triacic signature. And there's the footprint right in the middle. And the red bed and the gray clay had to be wet at the same time in order for that to happen.

[00:49:09]The triacic era was the red blood gray clay black cap. And I am in the triacic very well-known one of most common study triacic areas in the world.

[00:49:23]And [clears throat] that is a noto footprint. And the gray is down through the red bed. The only possibility is that we're all wet at the same time. And then the black cap just keep kept falling and falling and cuz that was all the burning and volcanoes and all that stuff. said the Smithsonian said a year.

[00:49:45]It boiled for a year. All right, here it is right here. Smithsonian magazine.

[00:49:49]Asteroid impacts once made the Earth's ocean boil for a whole year and then the sediments lay down red bed which is all the boiling flesh and iron basic basically from blood. And then above that was the gray clay which was the plant life basically. And above that was the fallout of the black cap. And that is exactly what I showed you. And they've known about this for a long time. And these are those three layers.

[00:50:21]All right. So, next video is going to be about gold and pyite and all that stuff.

[00:50:27]Get ready. Thank you. Love you all.