Wso and i’m going to weigh in on this photograph, this is really um being analyzed on a shout out to wages, world um, who does a great job with looking at the space telemetry. Looking at the different satellites looking at the different data um, so i highly recommend that, but he did an in-depth and exhaustive analysis of this right and we see these things all the time.
The first thing i’m going to point out, though these images usually are only one frame in a stack. We usually don’t, get to see like several tied together. Let’s, just go ahead and reverse this one. So you can see that it’s, a 15 minute increments right, so you go from.
This is on 9. 23. 14. 39. So you go 15 minutes there. It is 15 minutes and it’s gone so that’s. The first thing i’ll say: is: it only lasts for 15 minutes. This circle in the middle is the size of our sun, which is the largest body, what they say in our solar system right and yeah guys.
I know a lot of you guys: don’t like the nasa photographs and stuff and don’t trust them, but let’s just assume for a second. This is real. Okay, because i have a theory. I want to talk about that. May help us to understand a little better.
It’s, just an idea. I’m, not saying i know i’m, not saying this is science, that’s, been proven, experimentally or anything like that. But what we’re going to talk about today is how can something this large go right by a in a photograph? Let’s.
Look at some other ones, real, quick! Just to just to refresh your memory right. Remember these old photographs from the 2016. We see them all the time right where you & # 39, ll, see the big orb with a hole in it like we’re in one frame on this particular core two camera or this, where the we see this ball actually traveling.
You know you can actually see it’s, it’s. It’s. Traveling! You can actually see its direction. You can see that it’s like it’s, tail behind it right somewhere. Here you’ve, seen them before. If you’ve been in our community for any period of time, we’ve been looking at these, but they’re, always one frame they’re.
Always very brief, um you know and um and oh yeah, let’s. Show i want to show you another one that might be might be. Might strike your memory. Remember these these bad boys that we see on hi1 every so often let’s, just like all of a sudden.
We get a flash of this huge thing with a hole in it. Well, i have a theory and an idea that i want to invite you to and see what you think. Okay and what it has to do with is particle theory. I know right now we’re getting brainy.
Now we’re, getting scientific yeah! I’m. Sorry, we’re, going to get a little scientific, that’s. I know right and what we’re going to refer to in order to start this conversation of what this might be, what we might be seeing here, okay – and i’m – not claiming i know i know it looks like a big Planet, i know it looks like a big orb, but this one looks like it went smooshed through and twisted through the sun and out the other side right very strange, very unusual, very weird, okay, but let’s.
Think about this uh. From a perspective of where what this could possibly be right and what i’m, going to bring your attention to is particle lights, is, is light or is matter a particle or a wave, okay and recently physicists.
This is back in 2015. They first the first for the first time they captured light, acting both as a wave and a particle in the same same snapshot and what this has, what they call. This is the wave particle paradox and you can study this yourself, but i just want to apply this idea to what we’re looking at in these um space.
Telescopes right. Could it be now what we look at. We look at this at the particle level as when we observe a wave, it turns into a particle. I know right particles and waves are the same thing. It’s when a wave slows down that it becomes a particle.
You see what i’m saying so, in other words – and this has been – this is something that we’ve talked about before um and i don’t get into into. This is a photograph of recently, where they actually uh photographed a wave and a particle acting as both at the same time, which is all bizarre right, but again it’s.
The idea of wave is a wave or is it a particle in and the answer to it is, in my opinion, a particle is a frequency that’s been slowed down, a wave that’s been slowed down. Is that what we’re seeing here – and this has to do with density too, and – and i think that the slower something is the more dense it is right in this case, are we looking at a different density of matter? We’re, looking at something that’s, moving at a frequency that just this camera just caught this.
Just that momentary point where it could observe this huge macro object, not a particle, but a planet or a star or some large huge body slowed down to the point where we could see it on this frame. But these things are moving so fast and in a different dimension.
If you will or different density, if you will that it, you know we just have to be lucky to catch it right. We have to be lucky to catch it, especially on these space. Telescopes and stuff like that is, is what we’re, seeing here literally a humongous macro particle.
If you will right that is being slowed down or caught in its action and its activity and again what this speaks to guys. Is that the what what we can’t see in the universe is so much greater than we can see in the universe.
So it’s. Really it’s really arrogant, and it lacks humility to sit here and say that i know that’s. A planet i don’t know that that’s a planet, but i can theorize and talk about ideas, and is this a macro particle wave paradox that we are seeing on stereo when we look at these types of images, just an Idea – and i hope you’re having a great day more to come – steve olson, wso,