The heavier, more dense, a object is, the lower its buoyancy level is. The more dense a object is, the further down it will fall. No more forces are needed, only different density and buoyancy levels.
You do need a force. Things do not move without a force applied to them. Your worldview does not explain why denser objects don't fall sideways, it's basic logic that the direction things fall must be determined by something. Do you believe the earth is flat, by any chance
that is up and down and how different density and buoyancy levels work
Yes and the force is called up and down. Once a object found it relevant buoyancy level, it will stay level, until a upward, or downward force is applied to it.
Why would things fall sideways? That makes no sense. I see no point in trying to explain why something does not do something it should not be doing.
Up and down are directions, not forces. Why wouldn't things fall sideways?
I see no point in trying to explain why something does not do something
The point is that you don't fully understand whatever it is you're talking about if you can't do it. "It go up cause it do" is not complete.
Didn't answer my question, do you believe the earth is flat? If you don't then your take on buoyancy makes even less sense because "up" isn't a singular direction.
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.
The heavier, more dense, a object is, the lower its buoyancy level is. The more dense a object is, the further down it will fall. No more forces are needed, only different density and buoyancy levels.
You do need a force. Things do not move without a force applied to them. Your worldview does not explain why denser objects don't fall sideways, it's basic logic that the direction things fall must be determined by something. Do you believe the earth is flat, by any chance
that is up and down and how different density and buoyancy levels work
Yes and the force is called up and down. Once a object found it relevant buoyancy level, it will stay level, until a upward, or downward force is applied to it.
Why would things fall sideways? That makes no sense. I see no point in trying to explain why something does not do something it should not be doing.
Up and down are directions, not forces. Why wouldn't things fall sideways?
The point is that you don't fully understand whatever it is you're talking about if you can't do it. "It go up cause it do" is not complete.
Didn't answer my question, do you believe the earth is flat? If you don't then your take on buoyancy makes even less sense because "up" isn't a singular direction.
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.