4biddenknowledge Podcast
4biddenknowledge Podcast
Secrets Beneath Giza and the Lost Sphinx - Filipo Biondi - Billy Carson
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All right, everyone, what's going on? I see people in the live chat already. Today I have a great, great guest. This man is already a living legend. His name is Filippo Biondi. He's an Italian aerospace engineer and researcher specializing in remote sensing, signal processing, and synthetic aperture radar, also known as SAR technology. He is known for his development and application of the SAR Doppler tomography techniques for high-resolution imaging, and is the man that discovered the incredible underground area beneath the pyramids in the last couple of years. It went super viral all over the world. And now we're back with some new data and some new information about the Great Sphinx. Welcome to the podcast, Filippo.
SPEAKER_01Thank you very much. And uh good evening in Rome. This evening.
SPEAKER_03Yes, it's Rome. In Rome, it's 10 o'clock p.m. for you, so thank you for being so gracious to uh spend this time. All right. Now, what is so interesting? Oh, go ahead, what'd you say? Uh for you and uh your public. Oh, yes, yeah. Oh, they're gonna love this, yeah. And that there might be a slight delay in between our conversation, everyone who's watching live, just because he's on the other side of the world. So we'll be able to we'll navigate the conversation. But what I've seen so far, um, Filippo, between you and Armando May, your information, your work has become an absolute global sensation. I've met you in person now twice. I met you in North Carolina and you with Armando. I met you in Chicago, uh, yeah, at the Pyramid House in Chicago. And uh so far I've been able to watch two of your classic presentations, and I've seen the studies that you've presented to the world on your SAR-Doppler technology and how it can pick up the information or the data and process that data beneath the Earth's surface. And so now, after seeing it so many times, I'm super convinced that your work is authentic, that your work is true, and also that your work is revolutionary. So, thank you for doing that work. And I would like you to just tell the people a little bit about SAR-Doppler technology and why and why and how it works.
SPEAKER_01Yes, yes. Uh why is uh simple because uh we are estimating uh the acoustic uh signals by that that are uh present at the surface of the earth. Uh why we don't use electromagnetics because they have only superficial interaction, so they can't penetrate especially from satellites, they can't penetrate, so they have zero uh penetration. And so we decided to move into the another communication channel uh that is called acoustics, so sound. Uh it is well known that the sound uh penetrates matter, especially dense matter like the bedrocks and granite, of course. And um to do this, uh we invented a method where uh the satellites are moving on a specific area, they catch a snapshot uh of made by uh the coherent behavior of synthetic virtual radar, which are uh, in my personal opinion, fantastic because they can watch um on the Earth 24 hours and any time, so anytime and anywhere, because of the um a particular wavelength that is not light, is it's always light, but it is not the classical light as we are intending of a wave having a wavelength of of approximately 470 micrometers in the green, but they are they have a wavelength uh of um a length uh approximately of three centimeters. So they are relaxed uh waves and they can penetrate also the clouds and they arrive straight to Earth. So we um using this coherent behavior of the transmissions made by satellites, it is possible also to uh use the so-called Doppler effect in order to retrieve vibrations. It means that when the mechanical waves uh given by acoustic uh are belong belonging to the um a physical uh oscillation, they uh can uh provoke a uh frequency uh modulation on the electromagnetics. So we can uh we can grab the information of that uh of those acoustics.
SPEAKER_03Yeah, that's amazing. So basically, what you're saying is because of the frequency of the waves, I guess because the waves have a larger oscillation, is that why they can penetrate into the stone better?
SPEAKER_01Yes, acoustics are always present, so because is always moving, uh, there are there is the background, the seismic activity of the world of the world, uh, and it's always present, and then there are also the vibrations given by the human activities, which are uh provoke oscillations, right?
SPEAKER_03That's incredible. And so what's happening is this data is all collected from these vibrations and oscillations, and it's sent to a computer. And what is the computer doing? It's a computer showing the empty space versus the solid space and then rendering what that image would be.
SPEAKER_01Yeah, absolutely yes, because uh these oscillations contains the um the the space uh uh space history of what there is underneath. So uh space is so it means uh that uh uh while you go uh in the depth, you may uh you may um meet uh piece of land, piece of underneath that uh can be void or less dense or more dense. So uh collecting this information, we can retrieve the the what is uh underneath.
SPEAKER_03Yeah, incredible. It's so incredible to me because almost eight years ago I wrote a book called Compendium of the Emerald Tablets, which I know you know about the Emerald Tablets, right? And um, in page the on page 34, I wrote, I drew a rendering image of beneath the Giza plateau, beneath the bedrock, and I drew big columns going down into the earth, eight columns in this book almost eight years ago. And I used a quote also from Herodotus who said that what's beneath the pyramids rival anything the Greeks ever built. And I say in this text that these that this halls of Amenti, according to Thoth, go on for miles. And then your data came out just you know last year. It really was a big sensation. So your data gave a lot of confirmation to the information that I wrote in my book. I was only going by ancient text and stories and putting pieces of the puzzle together with no real data, but your science brought real data to ancient wisdom, and now the two go together because uh, you know, Thoth talks about this underground area, not only beneath the pyramids, but even in other places around the world. Uh, and uh, and your work has been so instrumental in proving that a lot of this ancient information, not not only is it not just mythology mythological, but it might actually all be real, or at least some of it might be real. And uh I know that Armando's a big fan, your partner Armando is a big fan of the of the Emerald Tablets, and uh he wrote his book Key of Wisdom, you know, which I just wrote the forward to his book. Do you see, did you understand the correlation between what you discovered and the ancient text?
SPEAKER_01Uh yes, according to the um uh what uh Armando is uh always saying, and uh I thank him of all the things that uh he uh all the contribution that he gave to the Kafer Research Project. Uh the historical contribution because uh it's very uh it is very important. We start from history and then we try to apply some technology in order to retrieve in order to fill the gap, no, to to to retrieve information and so confirm the the history. Yes, that's very, very, very important. Uh so again, thanks to to Armando. Uh the also of Amenti. Uh I I don't know a lot about the also of Amenti. Better Armando that he is more uh absolutely more than me in this. But uh what we can see say is this uh according to the measurements that we made on the pyramids, uh we we have retrieved some uh vibrational activities that can uh could recast very precisely in what you said before, Billy. So the columns that arrive that goes for a lot of meters underneath, so hundreds of meters underneath, and they intercept some big voids, very huge voids that are uh located. We we measure at a depth of approximately uh 640 meters.
SPEAKER_03Wow.
SPEAKER_01And these things uh uh are replicate uh were replicated on uh on uh all on the three pyramids. Um obsolete for uh Cafre and Ke Cheops, and for Menkaure the structures were smaller but always present. We um understood that in order to uh to make our research more robust, we had to uh induce uh diversity. It means that uh we used uh the confirmation uh of different satellites. Uh and so we um uh also uh processing data uh given by different satellites, we were able to retrieve the same results. So for us, this for us was uh was um very good.
SPEAKER_03Yeah, that is that is amazing. Do you happen to have any currently available images um with you now? Anything you can show?
SPEAKER_01Absolutely. Yes, I will show you uh something uh uh concerning the C Everyone in the live chat.
SPEAKER_03Make sure you share this video. Make sure you click that like button and subscribe to Forbidden Knowledge. And uh at the end of this, we're gonna give out uh Mr. Beyondi's social media link so you can follow his work as well. Okay. Thank y'all for hopping on today. Okay, let's do it.
SPEAKER_01This is incredible. Yes, we are uh I uh I am uh uploading uh the um file PDF. Okay, no problem. Uh I ask you to wait uh a bit. So yes, it is important to do this because uh uh um showing the presentation maybe we can uh uh describe better what uh what we did. Then uh Billy, I want to ask I want to tell you also something uh concerning uh an hypothetical uh uh project research project that uh we are we could be able to to submit to the Egyptian authorities.
SPEAKER_03Oh beautiful, fantastic. Yeah, and I know that Armando's been living in Egypt now. Uh I was just there, but I missed him by a few days. But the next time I go back in a few weeks, uh, if he's there, I'll get a chance to uh see him in person again. Yes, very good. Yeah, I think I'm gonna see you in Bosnia. Are you going to Bosnia? Bosnia, no. What there is in Bosnia. Oh, okay. No, no. No, okay, all right. I thought I was gonna see you in Bosnia. Okay, after Bosnia.
SPEAKER_01In Portugal, yes. In Portugal, I don't know if you're going to Portugal.
SPEAKER_03Yes, I will be in Portugal.
SPEAKER_01Yeah.
SPEAKER_03Okay.
SPEAKER_01Um so this is uh the presentation. I don't know if you are watching the presentation. No, yeah, we're looking here it goes. I'm adding it to there, there it goes. Boom. Oh, okay. Okay, okay, okay, yes. Uh yes, this uh I made uh several times this presentation, but uh uh it is necessary to uh I to go a bit fast, of course. Yeah, where uh I show you something. Yes, there are a lot of a lot of slides, but we have uh few time, uh little uh short time that uh this evening we are together. So uh this is the um SR image. This is the synthetic virtual radar image, is a typical uh synthetic virtual reader where we have the three pyramids we are uh show showing the the pyramids. Um I don't know if I can go to a specific slide. Uh yes, from here I think okay. So I show you just uh a couple of uh results. Okay, uh so what uh we we have estimated. We have estimated uh so this is uh um the a typical uh uh uh tomogram that we have. It's like uh a medical imaging, no, a medical image when we do a scan of uh of of our body. Here we are doing a scan of what there is underneath. So we we consider image A, uh here we are look watching the three pyramids, and this line is called the tomographic line. This tomographic line we can move it, and while we move the tomographic line, the the results here are changing, and uh we can have um uh different uh types of results and then also a color composite result. Uh what we are watching here? Here we are watching the shafts that are going down, and it is uh clear that the shafts are present, so they have to be we we we have we only have to uh examinate in situ uh how to reach these shafts and go and see what they are and how they are composed. Because uh while because uh if we know uh how they are composed and the exact shape of them, we can uh advance uh serious hypothesis on uh the purposes of uh of the pyramids, the purpose of the pyramids. So while the well which is which are the or which is or which are the main ums uh have been built.
SPEAKER_03Okay, and how far how far down are these going?
SPEAKER_01How far down are those? Uh yes, they are they are going down a lot because um uh in this uh in this scale uh uh they are more this scale, you know, this is in pixel, but they are good they are going down approximately of one mile down, yes.
SPEAKER_03Yeah, and uh they interpret to interrupt you real quick. Do you think it's one piece or do you think they're stacked pieces? Uh I don't know.
SPEAKER_01According to the shape of uh this tomogram, they could be at least uh two main uh structures because uh at the two pieces. So because why? Because at the middle of them, yeah, at the here you can see the the uh circle A, something is present, so can be present a big area while the shafts are intercepting inside, and then they go down to a second area. So wow, this is what we are watching here. So these are the the measurements that uh that we made. Incredible, incredible.
SPEAKER_03I I saw I saw in one of your renderings you had there were boxes down there also. They and I took the measurements, it was crazy. I think I you can fit 64,000 people in one box, yeah, yeah.
SPEAKER_01You know, uh Billy, a lot of people are um I don't know why, because uh a lot of people are uh uh against me, no, because uh Philippo, you are saying these things, and uh it is not true, it is not true. Here are the measurements, and we have to compute these measurements. A lot of people are saying, Yes, but the water table, the water table is visible because uh here we have a um a boundary. Look here. I don't know if you are if you are watching the cursor, but if you are watching the cursor, here you can see that there is a boundary, a boundary that probably can be the limit of the water table here. Uh here okay. And then uh there are uh features, very interesting features that has to be exploited. Okay. This is Menkaure. Also, Menkaure is uh constituted by uh uh these structures here like that and then we arrive to the Sphinx. Also, the Sphinx uh is uh uh has uh at least one big shaft that is going down like that. And so also here we have um uh mega, let's say mega um um rooms uh underneath here that uh intercepts the end of this shaft. Wow.
SPEAKER_03So now the Sphinx, real quick, the Sphinx um shaft that going down, is that also going down about a mile as well?
SPEAKER_01Probably yes, because uh uh uh you know, Billy, for measuring exactly the um the depth, uh it is necessary to uh retrieve a specific model of the geology uh underneath. So we can do a rough estimation uh considering uh a constant density of the matter, and so we can retrieve uh according to the uh the delays that we are measuring, we can retrieve a space depth. It is possible. Why did I tell you this? Because acoustics, uh, the acoustics behavior is different with respect to the light. Yeah, I see that when and the real it is very simple to measure distance using light because light has an yeah, has an absolute uh velocity, and the light can travel very easily into the free space, so it is very easy. Uh, when we are dealing with vibrations, things change a bit, changes a bit, but uh, we can measure approximately uh the distance, let's say that okay.
SPEAKER_03I just want to tell you that real quick in 2000 uh 2017, I was in California speaking at the Conscious Life Expo post-conference lecture. My lecture was about ancient Egypt and what was beneath the ground, 2017. I in my audience was a producer from Discovery Channel, and I didn't know he was there, but I was talking about the rumor, according to the Animal Tablets, that there was a massive object beneath the Sphinx. He was there. He said, I can tell you that the reason why my show got canceled, because they canceled his premiere of what was beneath the Sphinx, they did ground studies there, and he said that they discovered one mile deep beneath the Sphinx, they discovered a huge area and that something was there. But then NASA and the US government, the United States government in came to them, and this is in Egypt, but the United States government and NASA gave them a gag order. They could not speak about it, they canceled the show from Discovery Channel, and it never came on again. So your tech again, your science, your data is telling me this guy was telling me the truth in 2018, 2017. 18. Yeah, yeah.
SPEAKER_01Wow, thank you, Bill. Thank you. And so this that's this is uh these are other other results here where we can see a sort of uh wave behavior of the shafts, so we we can understand that the shafts are going down like a spiral, no wow, something spiral. So we have to know what uh what it is. Uh only going there in C2 we can understand, we could understand what uh what uh what that is exactly down there. But uh according to our results, we made our model, which is this, and our model uh um here the the depth is not in scale, it's obviously not in scale, yeah. Uh but uh the shapes of the shafts are compliant uh between uh according to the type of results that we have uh uh processed, that we have obtained uh according to our uh processings. Okay, yeah. So just uh ten minutes considering the the project project proposal that we are uh uh our intention is to submit to the Egyptian authorities. So if our intention is to intercept the uh the the shafts, let's say of uh the Kafri Pyramid or also of the Sphinx, uh we have to find a how you say a back door, let's say a back door. Yeah, yeah. So something something to go inside, a door that we can go, the door that gives us access to the underground city, yeah, right. Or to the underground world of uh of Jiza. And we were thinking uh about uh the um uh nets, the the the the the all the shafts that can be a view uh on the surface of the Giza plateau. Let's say one of these shafts can be this, this one here, yeah, here, and where we uh performed uh some scans using uh my technique, so Doppler tomography. According to this, uh look, we can we can observe that the shafts are going down. Um uh we say that uh currently the shafts are uh blocked by debris, so we can go down, but uh in a certain um uh depth we intercept the debris. And the debris can be, let's say, these bright uh blobs here that are giving us a higher energy to our tomographs, yeah. So uh the our intention is to intercept these uh horizontal corridors here, this one, and so because these corridors uh takes takes uh can take to the uh Cafre uh are oriented going to the Cafre pyramid. So if we uh if we manage our work, so our strategy is to clean the shafts, so remove the debris from here, and that's and having access to in order to have access to these horizontal um corridors. Yeah, we can also try to uh go down and intercept also the these rooms that are located uh lower here, as we want to do. So we believe that uh uh without passing uh to the uh pyramids, so without uh doing any excavation, any drilling, just cleaning, we can access to the main shafts that are located below the pyramids. And so at the end, may take photos, uh, draw uh exactly the shape of the main shafts, and so we can know making a sort of reverse engineering, the purpose of those uh megastructures.
SPEAKER_03Yeah, that's incredible. Thank you. So it seems like this entire site is interconnected with these deep underground shafts, yeah, and they all have one major purpose, as if maybe this is one giant machine. I don't know, I don't know, Billy.
SPEAKER_01I don't know. I really do not know. At the moment, it's blocked by the sand, by the DPN. So we have to we have to clean up everything. Uh but to do this, uh it is it it is impressive impressively um complicated because uh we need funds, we have to do a project proposal. The project proposal we wrote the project proposal, we have to submit the project proposal, we have to buy instruments to go there, and so I think it it is a project that can at least uh have a time span, I don't know, three or four years, if funds are present. We don't know at the moment, but uh according to this, uh we have uh uh instituted the foundation in Malta, uh harmonicsar.org, and there there are information about the proposal. There is information, so you can contact me and uh okay.
SPEAKER_03Well, if you need any help raising money to uh fund the project, to get machines, equipment, whatever you need, you know, we're definitely on your side. Myself, my company, and all of my leaders. I call the people that subscribe to my accounts leaders, they will definitely love to support in any way that we possibly can. Yeah, yeah. Did you find any evidence of a second Sphinx?
SPEAKER_01See, yes, the uh the question on the second second sphinx. Um, I can uh um add a second presentation. Let's see if it works. Yes, I think so. Uh let's say at um in uh at in the 21st of June 2026 in Bologna, Italy, uh, will be a conference where we uh uh finish the where we give the end of all the measurements that we did on the GISA plateau. So we will give uh because the the now we it is time to move in situ and try to to make something practically uh because uh we have to do something, and so uh considering the plateau of measurements that we did, uh there is also the sphinx, the same sphinx, the so-called hypothetical semusphinks. Let's say like that. Um this was uh uh a portion of work that uh we did. Uh, it is on progress, so this is um uh we started from this the dream stele. Uh, why the dream stele? Because we can see that there are two sphinx, and the dream stele is symmetrical, so the left and the right part uh seems to be uh slightly slightly different, but in the context, uh the stele is symmetrical. So we can say that uh if there is a sphinx that looks on a side, it could be who knows, a sphinx that is looking on the opposite opposite side. Uh this it was uh also something that uh this is also something that it was hypothized by also by Robert Bouval, the uh where uh he said that probably a second Sphinx could be present on the Gisoplateau.
SPEAKER_03Yeah, yeah.
SPEAKER_01This it was uh a work that um given where the idea was given by a col a colleague of us called Damiano Piras, an Italian, an Italian research researcher, where he uh uh concentrated concentrated uh efforts on a particular uh piece of land uh located on the Giza Plateau. Yes, so we uh we concentrate our uh studies here where we can see that there is the first sphinx, and considering uh a particular uh orientation, we are uh looking on another part of the Gisa plateau where there is this feature here. Of course, uh, this feature it is it not it is not meaning that uh uh inside that small mountain it could be a sphinx. We are not saying this, but we are uh concentrating our studies there, and on uh the conference because the the work is still in progress, but on the conference we can show you some results that uh can be compliant to a set of sphinx. So let's say let's see what will happen. Uh considering the the geometry, uh we are uh we are um uh absolutely look the geometry, it is uh very regular, and we have uh high correlations on the length of segment A and segment B. Why? Because segment A is parallel to segment B. And uh uh segment C is parallel also to segment D, which are the uh the are following, let's say, the uh base of the two pyramids, uh chaops and keephrine. So uh we are uh we are applying basics rule of uh of um geometry, and so a over c is equal to b over d, which are proportional the proportionality, and e is equal to f, and so we have other proportionality, g over a is equal to h over b. And so uh we are uh describing um a other um uh mathematical correlation given by the angles, so the uh alpha one is uh equal to alpha two, these two opposite angles here, this and this, and so three and four are the same, three and four, yeah, and five and six, and so we are also considering the areas because the area of the footprint of the keops pyramid is equal to the area of the triangle, the blue triangle, and the area of the footprint of the Kafe pyramid is equal to the area of the the this uh the purple triangle. Yeah, but this only to show you that uh maybe there we have to go to in situ and uh remove the the mountain there, we have to remove it, and we have to see that inside the bedrock it is uh uh there is uh it could be maybe a second sphinx. Why? Because if the first sphinx is looking uh on the right side, the second sphinx can be look looking on the left side, like the right side, yeah. So this is the area, and where there is the big mountain here. Um it is uh it is uh telling us that maybe down there there is something. Yeah. We saw also some old uh uh pictures where they uh this mountain is hidden uh below the the sand, but uh we are uh uh we are confident that this mountain has to be cleaned, removed because it is constituted by compressed sand, and maybe this one here, and so maybe look that there could be something, but I tell you this, uh Billy, we are now working on uh exploiting what there is uh underneath here, and uh according to the features that we have uh estimated on the first sphinx, so this is the synthetic aberrant image of that mountain. Uh, we are applying the same technique that we have used uh uh exploiting the three pyramids, the sphinx, so making all the measurements uh on the giza plateau. And uh we uh this is a rough estimation of the tomography, so of the consistency of what there is underneath, and we can see that there are uh some structures that are uh that has a behavior like uh it was on the first sphinx, yeah. Yeah, so uh this is the vertical shape of the small mountain here, and we can see that it is disconnected from what it is underneath here, like that. So we have the mountain and what there is inside here, and so we are working on this. Uh, we are um relatively sure that uh there are some uh voids inside, let's say, and uh in this case we are uh uh considering hypothetically three shafts that are uh down there, and so our um our our hypothesis uh can be that we are not saying that hundred percent there there is a sphinx, no, but we are studying features that um uh we that let's say we are sure that something has to be uh studied better. So, what I am saying, I am saying that we are concentrating our efforts on this site. We are doing uh tomographies here, and uh because uh the processing time is very uh uh time consuming, but we are confident that something uh we will uh show something very nice at the next conference on the 21st of June. Because at the moment, uh, what can I show is this, but not because I don't want to show, because other uh results are uh still in process.
SPEAKER_03Yeah, beautiful. Okay. All right, fantastic. Thank you so much. It has been an absolute honor to have you come on the podcast and speak to everyone. Yeah, your work is incredible, your work is so important because there's so much data that has been held back from humanity. And without your technology, without the way you were able to modify it to get this data, we may have never known the truth about what's beneath the pyramids. Maybe this other object that might be connected to the Sphinx, what's beneath the Sphinx, and may and now, maybe even so many other places around the world, you have given us some hope that we can get some more answers. Because only with more answers can we begin to see the picture. Because right now, the way everything is set up, we we only have a sliver, a tiny sliver of ancient reality. We really don't know everything. We can only keep reading, researching, and guessing, but you're adding another major piece to the puzzle. So thank you for all your work. Thank you very much, Bill. Thank you very much. Yes. And how can everybody find you on social media? What are your social media accounts?
SPEAKER_01You know, Billy, uh, I I don't I don't have social media.
SPEAKER_03It doesn't have it. Well, everyone, I'll be publishing this video. And uh we may get together and do some support for Filippo Biondi and his work and his team. All right. Uh and thank you again, my friend. I'll see you again very soon. I'll see you in Spain.
SPEAKER_02Yes. See you in Spain. Yes.
SPEAKER_03Yes, sir. Thank you. All right. Bye bye. All right, everyone. That was Filippo Biondi. Um, listen, this man is not seeking to get rich off of this information. He's really doing some really incredible work. He doesn't even have social media. Um, but let me tell you something. His work is incredible. He's an incredible human being. I've met him in person already twice. I've met Armando May. I wrote the forew to Armando May's book, The Key of Time. You can get that on Amazon. And uh I really want to work with these gentlemen because I believe their work is so important to helping us get more answers. You know, um, the more, the more technology that we get, the more answers we get. And so it's important for us to continue to get access to the data from newer, uh, more advanced technologies. You know, we have LIDAR, MUAN scans. Now we have this uh just modified SARS scan technology. And all these different types of scanning technologies are giving us a window into the past. It's almost like walking into a time portal and going into the past and getting a peek at what might have been, you know, so that we can really begin to understand what's happened, what we lost, what we've forgotten about, what used to exist, what the purpose of all of this could actually be. You know, I just I stay up at night. Sometimes I stay up at night for hours, just dreaming of like, what would it be if I can just walk back in time and step into those ancient civilizations and just take a look around and see it in its glory when everything was pristine and everything was amazing, and how the people were, how they walked, how they talked, and what this, what these ancient sites actually did. What function did they have? I know they had multiple functions, but how how did they work? And to be able just to witness that. But the best that we can get right now are technologies and data and research, like Filippo Biondi and his team and other incredible researchers around the world that are doing the work, putting in the time, the effort, a lot of the time, their own personal money to get this research done to bring it to the world. And uh and we have to really learn how to appreciate that uh because uh it's it's something that we don't want to take for granted. Because, you know, just myself traveling the world, and I've been around the world 24 times as of this last trip I just took to eat to Australia. And when you study this kind of stuff, when you put this information out, when you come back and report on it, you have a lot of haters, you have a lot of trolls, you have people who are disbelievers, people who want to take you down and don't want you to speak the truth or speak your knowledge or they don't even want to see your data. And uh, a lot of the times, people like Filippo and others that do this extensive research and spent so many hours to educate us, you know, they get these negative attacks. And so for they need our support more than ever. They need the support of the people to show them that yes, there's some attacks, but yes, there's also a lot of love and a lot of support. And we need to recognize people like that while they are still alive. Because a lot of times people put this kind of work in and then it's not recognized until decades after they're gone. You know, look at Nikola Tesla. You know, the guy's work didn't get recognized now almost to the 21st century for the genius that he absolutely was. And so we have to recognize and give people their flowers and celebrate them while they're alive, while they're still here, and tell them how important their work is for the world, especially this type of work. All right. So thank y'all for hopping on today on this pop-up podcast. I know you didn't know I was coming on today, but I popped up. And uh, and thanks again to Filippo Biondi for taking time out of his late night over there in Rome to hop on. I mean, he does he's done just the fact that he can speak English that good is amazing. I mean, goodness, amazing. All right. I appreciate y'all. I love y'all, and I will catch y'all later. I got all right, catch y'all later. Peace.