The way to actually get these equations is with the simple geometry of a spinning sphere.

And yes this will be a huge problem for you because you need to introduce more forces and QFT does not like that

And there is a another force (inertial force) here that gets introduced too.

Dropping objects straight down will also produce a deviated path

Which again follows the simple equations of a spinning sphere

Why would QFT not like that 🤔

Well first do we agree that you need a bunch of weird extra forces?

You realize that we have classical descriptions of forces before we introduce them to QFT

Depends, mathematically the one I've been using can explain quite a lot but maybe I'd require an additional one for some inertial forces

"for some inertial forces"

Oh yes

And reminder, a lot of people don't believe in the coreolis effect entirely

Let's for the purposes of discussion assume it's correct

I can give you evidence for that later

"classical descriptions"

I'm saying that for a mainstream flat earth model it doesn't exist, so I'm not the one you need to give evidence tl

To*

But yeah in all these cases you just need to take a spinning sphere and analyse the geometry coupled with super basic ideas within physics

You will get a latitude dependent precession rate with pendulums

You will get a latitude dependent coriolis force

And you will get an eotvos effect which means the apparent weight changes as you go east/west

Those can be achieved through different causes that maybe more complicated albeit

"maybe more complicated"

So it just all randomly matches the super easy predictions from a spinning sphere?

And yes

With QFT

This would be very very hard

Why no coriolis deflection at the equator?

Making these inertial forces to be actual forces will be super complicated and you need a bunch of arbitrary stuff to make it work

Regardless, you're assuming a lot of stuff for the sake of discussion. Do you debate FE'ers a lot? You should just try to prove some of these inertial forces and see what happens.

Oh lol

Yeah

But you'd agree

That if all these inertial forces do exist, then it will be almost impossible to keep QFT

Afterall, I'm not the only flat earther in existence, and I've got better things to do then stick here all day.

@Albert Einstein what...?

Of-course

QFT doesn't even matter here

Does it not?

You do know what QFT covers right?

Adding in a bunch of forces will not mess with QFT?