There isn't none dude

your knowledge is far more superior than i thought

thats false in a spinning cilindrical room you cant move because youre pinned to the wall

oh well at least i tried to prove it, where is yours @ElectroquasistaticMagnetoMan ?

I can show evidence that suggests it's a push from above ,more than you have bud

go on then

You have none

if you show proof ill believe you

@PotatoChipMan26 http://farside.ph.utexas.edu/teaching/301/lectures/node94.html

uh, k?

Worked example 7.3: Amusement park ride
Question: An amusement park ride consists of a vertical cylinder that spins about a vertical axis. When the cylinder spins sufficiently fast, any person inside it is held up against the wall. Suppose that the coefficient of static friction between a typical person and the wall is $\mu=0.25$. Let the mass of an typical person be $m=60 {\rm kg}$, and let $r=7 {\rm m}$ be the radius of the cylinder. Find the critical angular velocity of the cylinder above which a typical person will not slide down the wall. How many revolutions per second is the cylinder executing at this critical velocity?

dude i understand how that works, why are you pushing it on me?

I without going into them I'll say a few, tamarack plumbob mineshaft experiment,light shield test ,dayton millers interferometry ,the allais effect ,the spinning ball experiment ....yadda yadda

dont make false acussations

@ElectroquasistaticMagnetoMan id like some proof not names of theories and such

@Silly Rabbit, Trix Are For Kids i dont even know what you want right now

Don't ask me to go into them you will have to do that little bit of research yourself

I would be here all day

nah just pass me a link or 2

I remember your tamarack mineshaft experiment. That's an interesting read.

ive been in one of those rides and i was pinned to the wall

@Silly Rabbit, Trix Are For Kids omg haha dude i agree with you, you get stuck to the wall

ok

Oh the gravitron

At fairs

i dont know why you thought otherwise

what about the gravitron?

I thought you was talking about that fair ride

That spins you round and your stuck to the wall

i mean sorta but yeah

daniel would it work similarly in concave earth?

why are we talking about fair rides?

No because we are not spinning

nah he said we dont move

ok

c'mon @Silly Rabbit, Trix Are For Kids

The gravit Ron would be above

Centrifugal force or acceleration can simulate gravity to the point that it is indistinguishable. It's called The Equivalence Principle.

idk the concave model

It would be the celestial sphere

"simulate gravity" thank you