Message from @Saturn

Discord ID: 680622352924410099


2020-02-22 01:29:22 UTC  

There is an animal in vietnam that resembles a horse with one horn

2020-02-22 01:29:30 UTC  

Very rare

2020-02-22 01:29:46 UTC  

Ppl use to call rhinos unicorns i think

2020-02-22 01:29:46 UTC  

Not a unicorn though

2020-02-22 01:29:50 UTC  

Yeah

2020-02-22 01:30:22 UTC  

There was a deer with 1 horn or something and it became a legendary creature

2020-02-22 01:31:15 UTC  

Its called the Saola

2020-02-22 01:31:57 UTC  

Weird lol

2020-02-22 01:32:00 UTC  

Ikr

2020-02-22 01:32:28 UTC  

Well now you can tell everyone asian unicorns exist

2020-02-22 01:32:40 UTC  

Lol

2020-02-22 01:32:48 UTC  

:)

2020-02-22 02:28:49 UTC  

What’s in Area 51

2020-02-22 02:30:00 UTC  

real life anime women

2020-02-22 02:34:24 UTC  

Area 51 is a experimental aircraft facility @tpofba maybe you should organize another raid to go find out

2020-02-22 03:37:36 UTC  

@Citizen Z The balloon doesn’t rise due to density alone, although that DOES have an effect. Gravity pulls the heaviest mass down, and air is heavier than helium. The balloon’s mass is heavier than air, but the helium suspends it. As the air is pulled down more than the helium, pressure will make the helium rise. Without gravity, balloons wouldn’t float. In a vacuum chamber, the balloon won’t float as it doesn’t have any heavier mass outside of it pushing it up as the mass seeks the lowest possible ground. This is also why water rises in a bath when you enter it, instead of you just floating on top of the water. This phenomenon is called buoyancy.

2020-02-22 03:38:20 UTC  

2020-02-22 03:39:30 UTC  

2020-02-22 03:49:49 UTC  

Evidently, you *can* have buoyancy in space or 0-G, but you need some kind of compressive force acting in the same way gravity would to force the interaction of the two entities. @Oceanic

2020-02-22 03:50:10 UTC  

Mhm. Some kind of force acting upon it.

2020-02-22 03:50:14 UTC  

Generally, the only way that would work is via some kind of artificial method.

2020-02-22 03:50:20 UTC  

Well, think of a piston, in a sense.

2020-02-22 03:50:32 UTC  

Or anything that acts in the same relative acceleration

2020-02-22 03:50:39 UTC  

Thanks for clarifying for others, I forgot to put that in.

2020-02-22 03:50:55 UTC  

No problem. It is more often than not a common thing overlooked

2020-02-22 03:51:29 UTC  

That buoyancy itself isn't only because of density or gravity, but also because of the chemical inter-molecular forces being incompatible for immiscible fluids.

2020-02-22 03:51:35 UTC  

Or even a solid and an incompatible fluid

2020-02-22 03:53:29 UTC  

That itself stems from the interaction of the molecules in such a capacity.

2020-02-22 03:53:38 UTC  

Though Pressure Gradients and their respective normal forces do have a hand

2020-02-22 03:53:46 UTC  

We are just looking at another level of the same question

2020-02-22 03:53:51 UTC  

As long as something is being forced, for lack of better word, harder than something else, and that mass is malleable, the other mass will be affected by buoyancy.

2020-02-22 03:54:54 UTC  

Essentially, I was just explaining a bit further why the Pressure Gradient acts in the way it does <@!680610519224287297>

2020-02-22 04:20:41 UTC  

@Oceanic exactly. The density of the medium changing is the direct cause for the helium to rise or fall.

https://cdn.discordapp.com/attachments/484516084846952451/680630016211550229/image0-45-1.png

2020-02-22 04:21:22 UTC  

And it is still enacted upon my a compressive, and consistent, force.

2020-02-22 04:21:49 UTC  

Yep.

2020-02-22 04:22:20 UTC  

As it must be, otherwise it really doesn't work.

2020-02-22 04:22:47 UTC  

No. Just changing the density. Thats what we can prove

2020-02-22 04:23:06 UTC  

Well, what keeps a brick in contact with a steel plate?

2020-02-22 04:23:24 UTC  

Different densities should mean that one is not forced into the other, and can freely roam around.

2020-02-22 04:23:31 UTC  

Density of the two

2020-02-22 04:23:44 UTC  

So...you're arguing Relative Density?