You make claims, with no proof to back it up, but that is how it always been with gravity. A object seeks its natural buoyancy level, I do not know what that is so hard to understand. The more dense a object is, the lower its buoyancy level is. Once a object has reached its buoyancy level, it is not going to move up or down, unless outside forces affect it (like the wind).
You are still not explaining what causes an object to find is buoyancy level. What force is acting on the object and is determined by its density? Helium rises and everything else sits on the surface normally? Nothing in between that would find its level at 5ft in the air or something?
Hellium is less dense then air, so it rises, until it finds it buoyancy level. Whatever upward and downward force that is applied to a object, acts on a object, until it finds it relevant buoyancy level. A example I used is;
Something goes up because you apply a upward force to it. Say take a baseball bat, someone throws a baseball at you, you hit it, hopefully it goes up. That is a upward force that got applied to the baseball. Then through surrounding air pressure, it started losing speed, and as it slows down it starts falling down, as a baseball is more dense then air, and it starts seeking its relative buoyancy level. Once it hits the ground, it has found its relevant buoyancy level, and will lay still there stabel, until a upward or downward force is applied to it once again.
Almost everything is more dense then air, so it will fall down, until it hits the ground. If you look at the periodic table, you will see that Oxygen is the 8 lightest element, Nitrogen the 7th and Carbon the 6th. Anything more dense then this, will seek a lower buoyancy level then 5ft in the air.
You make claims, with no proof to back it up, but that is how it always been with gravity. A object seeks its natural buoyancy level, I do not know what that is so hard to understand. The more dense a object is, the lower its buoyancy level is. Once a object has reached its buoyancy level, it is not going to move up or down, unless outside forces affect it (like the wind).
I'm not pushing gravity, I'm explaining that buoyancy is not a replacement to gravity.
Why do more dense objects always fall towards the earth? Because boyuancy is dependent on an external force to provide directionality.
Ok, glad you are not pushing gravity. Here you can see a experiment on how a object finds it buoyancy level based on its relative surroundings.
https://youtu.be/fnVLwqud_OA
You are still not explaining what causes an object to find is buoyancy level. What force is acting on the object and is determined by its density? Helium rises and everything else sits on the surface normally? Nothing in between that would find its level at 5ft in the air or something?
Hellium is less dense then air, so it rises, until it finds it buoyancy level. Whatever upward and downward force that is applied to a object, acts on a object, until it finds it relevant buoyancy level. A example I used is;
Something goes up because you apply a upward force to it. Say take a baseball bat, someone throws a baseball at you, you hit it, hopefully it goes up. That is a upward force that got applied to the baseball. Then through surrounding air pressure, it started losing speed, and as it slows down it starts falling down, as a baseball is more dense then air, and it starts seeking its relative buoyancy level. Once it hits the ground, it has found its relevant buoyancy level, and will lay still there stabel, until a upward or downward force is applied to it once again.
Almost everything is more dense then air, so it will fall down, until it hits the ground. If you look at the periodic table, you will see that Oxygen is the 8 lightest element, Nitrogen the 7th and Carbon the 6th. Anything more dense then this, will seek a lower buoyancy level then 5ft in the air.