You said it does, now you say it doesn’t, which is it?
Where did I say it?
What were my exact words?
You mean that it ‘slightly pulls them down at different rates of acceleration’, which means it’s bs?
What is the rate of free fall acceleration in air? 9.86 m/s squared.
Free fall, in a vacuum, is roughly 9.8 m/s^2. But it varies with location.
"Free fall" in air, is not free, because you have the air resisting it.
For dense enough objects, with minimal air resistance, it is basically 9.8 m/s^2, until it reaches quite a high speed.
For a feather, with lots of air resistance, it is much slower and reaches terminal velocity almost instantly.
For a helium filled balloon the force from the pressure gradient in the air pushes it up, so it accelerates upwards.
For an object sitting on a table, it sits on the table, not accelerating downwards.
Again, gravity is not magic.
It does not magically vary in strength to magically make all objects magically fall at the same rate.
Instead, it acts like other forces, applying a force proportional to some property of the object, in this case the mass of the object.
Other forces can also influence the rate of acceleration.
You just make up bs for your unsolvable problems as they hit you.
No, you just continually make up BS to pretend there are unsolvable problems.
You are yet to present any unsolvable problems for the RE.