This is very easy to demonstrate yourself

https://www.youtube.com/watch?v=isMYGtCFljc

so balloons are going up because of centrifugal force?

No? They are obviously going up because of a force. Centrifugal force is just a way to apply a lot of force.

Its a different type of force

can you answer me about which force is causing helium balloons to go up?

I didn't need to see a naked boy

that vid is evidence of elite child trafficking

Ok

that boy fell to his death trying to escape

But still

Didn't need to see a minor

It quite literally is archimedes principal, which is null and void if no force is being applied downward.

archimedes principle implies that objects seek equilibrium based on density. no force required.

no gravity required.

No, Force is required... Unless you disagree with Newton?

gravity is fake and gay

You also didnt explain why things with greater forces applied seem to seperate faster

you might describe something falling as a measurement of 'gravity' if you like, but it's simply cosmetic.

there is no 'force'

It would follow from that that if no force were applied things would seperate slowly.... or not at all

Im leaning towards not at all

Archimedes Principle. It's a principle of nature. Things equalize in the closed system of varying densities which we all live in.

Fran's right. With no force to separate densities, there's no buoyancy. Here's an example:
https://youtu.be/rzytpxtbCzQ?t=157

You didn't offer explanation under your model why things in a centrifuge separate quicker

because it's irrelevant to the question of helium balloons

not connected at all to what we're talking about

Its obviously is relevant, they both deal with differing densities and bouyancy

do they not?

and you're bringing it up to dodge

but

what was your point?

centrifuges have a force offered from a machine?

If we spin something in a centrifuge and apply a force to it we can get things to seperate very quickly, things which would take hundreds of years to seperate just left sitting

It seems the more force we apply the quicker it settles

If we apply no force, what would happen?

Would it settle and seperate?

Archimedes Principle would happen

But we just said that the less force we apply the longer it takes...

densities would equalize

If we applied no force surely it would never seperate