Just showing you other info that's here on the sever

Oops I was accidentally typing this whole time wasnt I

Well anyway, answer the question

Why is a “vacuum” despite a lower pressure differential stronger than two areas in the atmosphere/atmosplane with an even GREATER difference.

For example, driving 20m up a large hill will probably make your ears pop. The difference there is much bigger than the difference between 200m much higher up

doesn't matter about the low differential, between the upper atmosphere and the supposed vacuum of space. the fact that there is a differential is enough for the effect you should expect to happen. the second law of thermodynamics dictates this, entropy takes effect here and works towards finding equilibrium, nullifying any differential that may exist.

That’s not how pressure works. Let’s posit a firmament and Earth surrounded by it, with the atmosphere(plane?) inside.

We ALL will acknowledge there is a difference in pressure with elevation, denying that would definitely just be trolling. Since we all know that, why isn’t gas spreading out to increase entropy?

unless there's another *force*

Exactly!!! "Why isn't gas spreading out to increase entropy" come on baller, you have all the answers for your precious theoretical globe model!!! Answer the question! 😉

Answer the question

your turn to answer

I've done my bit

You didn’t answer my question at all

if you refuse, it's because you know you can't

@RadRhys hes right but theres gravity that holds the lowest pressure from space vauum

He asked you a question @CryptoCypher, you just repeated it

he hasn't answered the question! I'll wait til I see an answer to it, no need for me to waste any more of my time on you! you think you know a lot, when in reality, you know nothing

I am not Jon Snow, mind you

YOure not answering the question. Globers can just call in gravity, which you’re just going to turn into an argument about how gravity isn’t real which is shifting the focus away

Answer the question

You need a mechanism for why gas builds up at lower elevations despite having LARGE pressure differentials, larger than any you will find in the upper atmosphere/space.

its gravity thats holding the lowest atmospheric pressure from dipping out to space

And btw, the force of gravity increases with the lowering distance

Please don’t put my question higher up, I want it answered and it won’t be if y’all fall for the trap of focusing on something else

yeah, i dont know why hes trying to downplay gravity

To use Newton's here. Fg = G * m1 * m2 * 1/r^2

when r becomes smaller, Fg increases

@Jondar02 thats interesting, if you take 2 vacuums one at sea level and another at 50 m above sea level would the drop time change?

He’s overstating the difference, but ofc the drop time would change one’s way higher lmao

Sorry, I and my classmate can't understand your question @Lain

hi, classmate here, can you please explain it a little more

the altitude would change the force of gravity right?

yes

thats correct

the `r` in the equation is the distance between the objects

He’s asking that since you’re further out from the center of gravity, if it would fall slower

if you have 2 vacuums, one at sea level and another one above 50m sea level and you dropped something from the same height in the vacuum wouldnt the time the object hits the floor of the vacuum be different?

i think yes since the r is different right?

@RadRhys exactly

what im asking

It would accelerate slower