Welcome back to another intriguing episode of TWT Talks with Texas! In this episode, we dive deep into some thought-provoking theories about our world and the cosmos.
We start by addressing a listener's question about the differences in sunrise and sunset times across the globe and explore the possibility of a stationary Earth. Could it be that the sun and moon revolve around us instead?
Our host also shares insights into the concept of the firmament, a dome-like enclosure that might house all celestial bodies. With telescopes always pointing to the same stars, is it possible that our understanding of the universe is all wrong?
We discuss gravity versus buoyancy and density, questioning the traditional explanations of how objects fall. Could there be more to it than meets the eye?
Lastly, we touch on the intriguing theory of the ice wall that could be surrounding our Earth. Is there more to discover beyond what we know?
Join us in this fascinating conversation, and let’s continue to research and educate ourselves. Until next time, peace.
Episode Transcript
Yo, yo, yo, yo, what it do y'all welcome back to another episode of TWT Talks with Texas.
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All right, y'all, we're going to dive straight down into this.
I'm answer some questions and then give y'all, you know, another mind bender.
(00:41):
And also, you know, just put y'all in the mode of just, you know,
researching and wanting more.
Get your brain going so you can go ahead and just do some more research and
find out really the truth behind of what you believe or what these theories perceive to be.
All right, Simone, your question was, if that's true, how would you explain
(01:05):
the times of the sunrise and the sunset that are different in every part of the world?
She also said, if you think about it, this would not be the case on a flat Earth.
Well, Simone, my little question or my answer to that is, I should say, when you've been.
(01:29):
Brainwashed and believed into thinking that we're rotating and rotating around
the sun, rotating around the moon and stuff like that, then I can see how you
can feel that way about, it can't be the case on a flat earth.
But what happens if I told you that we're stationary and we're not moving?
(01:49):
Yeah. Have you ever thought about that? We're stationary and we're not moving.
Picture this. If we all stood outside and said that, you know what?
We're going to watch the sun rise this morning.
So we all just stand outside and then next, you know, we see the sun creeping.
Now, in your mind, are we spinning to the sun to watch it rise?
(02:13):
Or is the sun just completely right there in front of us and we are standing
in one spot, same spot in front of our doors or houses, whatever.
And we're watching the sun completely go over our heads and we don't have to move one bit.
So that's my theory right there. And then my other theory is this. We have telescopes.
(02:36):
You can place a telescope in your front yard, backyard, on your porch,
and you can face it, point it in any direction.
Let's say we're going to use the North Star to be exact or the Big Dipper.
We're going to say the Big Dipper.
All right. So now that you angled your telescope at the Big Dipper,
(02:57):
let's leave for the next six months or three months and we're going to come back.
Now, do you think when we come back and look through that telescope,
we should still be able to see the Big Dipper or should it be some other set of coordinates?
Exactly. We're still going to be seeing the Big Dipper because this is my theory.
(03:19):
Now, y'all don't have to go with it or just do your own research and then you can find out more.
We are stationary. The only thing that revolves around us is the sun and the
moon. And that's why it's like an infinity.
I don't believe in, you know, like we're on this ball spinning.
(03:39):
I don't believe that we're flat as a pancake or just flat, you know, just like a square.
But we have some we have some flat terrain that, you know, makes everything more sense.
Because when you think about it, if sun and the moon is rotating,
that's how we get our night and day.
On a flat plane. All right?
(04:03):
Now, if we was on this ball, like they say we are, and we're spinning,
but then we are the third rock from the sun.
Keep in mind, we are the third rock from the sun and the earth is not that big.
But we are the third rock from the sun. And from what we know is,
the sun is the biggest star, the biggest rock, the biggest structure up there
(04:25):
in the solar system, so they say.
So us being the third rock from the sun, wouldn't it be just common sense that
if the sun is that far away and it still beams,
that everyone in the United States should have the same time?
There should be no time zones.
We should all wake up in the United States at the same time because the sun is so big and beaming.
(04:49):
It's right there. Like we're the third rock from the sun. So like when you really
think about it and put logic behind it, it's like, well, I don't know.
Like, how can how can the sun be that close and be that big?
And and there still be different sides that have.
Different sunsets and sunrises. But going back to where I said originally,
(05:13):
if we all just stood outside and said, we're going to watch the sunrise,
we're not moving nowhere near the sun.
I'm sorry to say we're not moving nowhere near the sun. The sun is completely going over our heads.
Same as the moon. We can literally sit there and watch Watch the moon just rise
and go to the other side behind us without us even moving an inch.
(05:37):
OK, so that's one of my little theories that I have for you all, because, you know.
The more we keep talking about it, the better it is for all y'all to know and
get and get into the knowing. See.
I'm a firm believer in affirmament. It's like a dome-like enclosure,
(06:00):
you know, above our earth You know, I believe in celestial bodies,
Celestial bodies are like, if y'all don't know, are like the sun,
the moon, the stars I believe all that is positioned inside our firmament.
That's why we are able to have telescopes and able to put things,
stationary things on our planet, on our Earth, and just look at it like, hey, there it is.
(06:25):
And I'm going to go back to this right here, the North Star.
Isn't it ironic that if you ever get lost, you can always say,
hey, there's North Star right there.
Just look up and point at the North Star because it's the big, brightest star, right?
But what happens if we're moving, if we're rotating? How does that work?
Do you see what I'm saying? It can't compute because if we can put a telescope
(06:48):
down and leave it there and always point in a direction of the North Star or
the Big Dipper, whichever constellation of the stars that you want to point it at.
And if you leave and come back, you're still going to be able to see those same set of stars.
Now, I know it sounds crazy and I know it's like, man, where you get all this information from?
(07:09):
But it just for me doing a thorough and depth research about,
you know, the flat earth, the round earth.
If it's a pancake or if it's just a four corners, you know, square.
I don't believe in none of that. I just believe that it's not a circular sphere that they say it is.
(07:30):
And I don't believe that it's flat as a pancake.
But I do believe in the firmament.
All right. Right now, this is another thing, too. It's like when you when you put.
The the gravity in place of it.
All right. So we're spinning so fast that it has to fight with gravity to keep
(07:55):
all the water intact and leveled.
Now, that doesn't even sound, you know, comprehensive.
So why would the earth be fighting with gravity to keep its water in tech if we're on this ball?
Now, if the earth is flat and we live in the firmament.
(08:16):
It's like gravity will be pulled at an upward acceleration to the earth,
you know, to simulate gravity or a downward pull.
But it's gravity and all that is all a mystery to me because they want you to
believe in an invisible force.
(08:37):
And I'm over here trying to believe in an invisible force, but I believe it's
of buoyancy and the density of things. That's that's that's my belief. All right.
And when people say that, like, hey, well, it's wrong because look at the pictures.
The only pictures that we know and see is the ones that appear to be round,
(08:59):
like optical illusions.
You know, like those are real good CGI images.
Like when I was growing up, Earth still looked the same.
Like it looked the same when I was like five years old. And when I Google it
now, the same picture still looks the same. So I don't I don't know about,
you know, things being round or or flat.
(09:20):
But I do know that either the government or NASA is good at doctoring a lot of photos.
Now, speaking some more on the density and buoyancy for those who don't understand
that it's like objects that fall due to this density differences with dense year.
(09:41):
Your object is sinking through less dense, you know, moments or, you know, situations.
So basically what I'm saying is, is if, if you have a solid object that is heavy,
then yeah, it's going to fall faster versus if you have a solid object that
is hollow on inside, it's not going to fall as fast.
So that is my theory on how
(10:03):
like the gravity and all that that stuff is it's not
really gravity it is buoyancy and density all
right so one thing
that i would like you guys to continue doing is continue
learning more continue educating yourselves and doing
research just doing more research because you know it
always helps to to get your synapse flowing
(10:25):
and everything else going now i
also want y'all to check out the ice wall if you
haven't heard anything or even knew anything about the ice wall but
that's another theory of mine too that we
could be surrounded by a big old ice wall so let me know what y'all think about
that in the comments and see if y'all found anything out about that but like
(10:48):
i said y'all let's have a conversation not a confrontation until next time peace.
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