So a couple of comments coming back as to whether you know How valid is fourth dimensional mathematics and all of that stuff. You know, I can understand obviously, you know, we’ve just said that algebra doesn’t work in fourth dimension. And you know, there are a lot of people who are, shall we say, quite attached to that field of mathematics. And it has formed the basis of quite a lot of things. So, to find a mathematic where suddenly all of that doesn’t work anymore, obviously, I can understand is quite a shock for a few people. But at the same time, what we must understand is that the fourth dimension of mathematics, this fourth measure of mathematics, does actually have some relevance in the real world as well. So because it’s a mathematic of infinity, and what we’re experiencing, you could say in life is an infinite fractal of some description. We can use this mathematic to expose the structure of number space I am which actually is a fractal structure. So what starts to happen is we are looking at numbers from the decimal perspective if you like. When we do that, what happens is we were really performing calculations from within a box, in a sense, you know, it’s like, there’s a there’s the one in the zero which creates all of the numbers and we can use those numbers to make all these calculations and do all that stuff. And we can set scales you know, we can, we can say one is the distance between here and the sun, or we could say one is the distance of a metre. You know, we can set any scale Yeah, but, but when it comes then to infinite mathematics, the scales disappear and we are left with pure, the pure numbers, the pure ratio numbers, what’s actually going on? And so that we know that’s the case because what happens is we’re chasing ordinal numbers, basically, rather than cardinal numbers. That’s what’s happening. So the concepts here are really to do with more like infinity and in mathematics, we talked about the density of infinity, how dense is that infinite. So you could say you know, there’s there’s a number series like the square number series, it’s goes from one to 416 It’s missing. Oh, I missed that. 99 149 16 through there and it’s missing isn’t it? It’s missing some stuff. You know, it’s there’s gaps in the ins in the space. Yeah, I’m actually in the square number series is a geometric series. So that has a slightly different function. That’s why in a way infinities you can see on the square plane, there’s a lot more space if you’d like for us to place a dot. Then in the num, a number line you know this as simple as that we’ve, we’ve, we we square something where we’re lessening the density of the infinite Yeah, and so much and you know, imagine like the reality itself, what we’re talking about here, you know, you’ve got energy in reality and you know, energies flying around the place and light at the speed. Of Light is the speed of causality here. And so here we have, like, let’s say this type of space and the density of a neutron and the density of proton and various things that are very kind of set within the universe. They’re not they’re kind of like the, the building blocks. And when we look at those kinds of densities, what we can see is actually there’s a background radiation and there’ll be a density ratio. So we can use density ratios and infinity to scale. These these these observable phenomenas. And by doing so, understand that let’s say we’re one point, the macro level meets another point in the micro level, we can understand that there’s a unification of some description, even if we can’t see it with our mathematics that we’re using you know, the, the x equals y mathematic. And so instead of that, what we have to do is you have to, we have to say, Okay, well how can we start to decode some of this stuff, and how can we how can we work within, let’s say, a fourth dimensional space? If, if none of this stuff’s gonna work in fourth dimension, you know, in the fourth dimension, there is no time in a sense, so. So how we get around that then is by performing an infinite iteration of a calculation, and so where we’re riding, in a sense, the infinite wave right the way down until we find a close enough approximation. And as each number devolves to you know, that infinite yet, we can change it to any number through the calculation can be any number, and it will devolve to the same number, but the signature at the very start of that will create a wave that’s very unique. And that’s how we can discover the type of infinity as it just dissolves and that’s called the Infinity signatures. So, so you can see there is a kind of there is a validity there actually, there is a system it does kind of work. And we can prove that as well because through through using some of this geometric, you know, just the concepts of geometry and how things work. We can make very, very accurate model of, of the atomic radii right the way through the periodic table, and, and we’ve made much better predictions about the first two atoms you know, helium, where and is a is a large atom compared to a hydrogen, and yet at the same time, according to the current theory, it should be a smaller atom. But if we look at things from the percentage of infinite densities here, that actually what we’re seeing is the expansion is due to the density of space being coming into the neutrons and all that stuff. Yeah. We can see ratios that emerge from that, and all of that sort of thing to do with the square root of 54, which we divided by four which we call the proton to neutron electron constant of energy. Yeah. That boils down really to something called the square root of six, basically the end of it. But we’ll talk more about that in something called dimensional science, which looks which has taken the constants and then basically we’ve transformed them into fourth dimensional constants. And through a transformation process made a very simple system of fourth dimensional mathematics. That actually is just based on whole number ratios. So there’s, it’s there’s quite a lot into it. But actually, the numbers are very simple. So actually fourth dimensional mathematics. The hardest part is to get your head into the thinking and the processes and understanding it from the perspective of, of life itself. You know, you’re living in an infinite and that infinite has a density and the different densities on what we believe calls causal gravity. The gravity is a uniform field. But density is what seems to cause the gravitational effect. And, and when we look at density, really, we see these neutrons and all that business at the centre of it. Yeah. So what we’re seeing then is actually we can start to model the density of the space in fourth dimension, and then we can start to understand a little bit more about things like gravitational fields and all the other things, and it gets quite exciting. You know, we do have a geo quantum gravitational solution for the quantum gravity problem. We’re still working on the details right now, but it’s very exciting stuff. We also have made a prediction that the helium or the sorry, the crypto atom that should it get made sure to get measured will be closer to naught point eight one nanometers, as opposed to I think the current prediction is about naught point eight nine somewhere but I think if we think is going to collapse into a route to basically is what we think of square. So. So that’s what we think is going to happen. And we we’ve modelled that on a geometric model, basically, which is very, has been very good at predicting those elements thus far. We can model all the elements but it has all the elements have already been measured. But Crypton is the only one that hasn’t should cryptid and get measured and it be naught point eight one pico metres in diameter or radius. Then we then yes and basically we will have made that prediction, and therefore our model can be very verified. So we’re, we’re seeing what happens with the scientific community on that front. In the meantime, we’re trying to at the moment map, the the the infinite space of numbers and we’ve put in for our Raman hypothesis as well, which explains why things are happening on the on the Zita plane. And which think actually, the once once we start to sort of dig deeper into this sort of nature of these infinite numbers, there will be a whole world of mathematics that has probably been hidden from us completely. We’ve we’ve already discovered lots of numbers, shall we say, that aren’t even on the map at the moment. And, and the other thing is, also is that what we’ve also discovered is that prime numbers just seem to pop out of nowhere. And that’s how crazy this kind of mathematic is it’s very exciting stuff actually, if you’re into maths because, you know, we made all these assumptions that you know, prime numbers, XY and Z, yet, but when you devolve them to their infinite, it turns out they’re not primes anymore. And also, things aren’t Prime’s can make those primes. So it’s like it’s quite crazy stuff, you know. And that’s and that’s all without any kind of any kind of addition, or any kind of multiplication just by dividing things and checking out the differences between things. So, yeah, so that’s, that’s exciting stuff really is a whole new world. of mathematics. And we we hope that you know, the mathematical community are going to take on board, some of the stuff that we’re talking about the some of the stuff that decoding the mathematics the end of infinity, and let’s do a base 10 once again. So I’m sure that some of the mathematicians are more apt to dealing with a base infinities and we’ll be able to assess or reassess some of our work in other base systems. Basics might be a quite a good one, because obviously of the code of seven falls into the six so it’d be nice for someone to do a little analysis within the basics and to see if we can unravel things and confirm the unravelling. Yeah. In a sense, probably what we’re looking at is the different systems that are useful for us. From you know, perspective of what we’re noticing from the base 10 binary code has already been established on the in the negative so we’ve got we’ve got a fair grasp of how that can work. So fantastic. So that’s, my name is going power I’m working for into infinity and we’re very happy to work with people. So if you feel like getting contacts or anything that that pills, please refer to feel free. In the meantime, we’ll be having more broadcasts on fourth dimensional mathematics coming away in due course. So have a think about that next time you stare out at the infinity of space, that the density of infinity in which you’re living in is right also in front of you. Thank you very much and good night.