When accounting for air resistance, heavy objects do fall faster than light ones. They couldn't test in a vacuum back then, they only knew how things work here in Earth's atmosphere.

A similar size chunk of iron and coal would have done the experiment just fine. Any two objects of the same shape and size but significantly different densities.

If two objects have the same size and shape, the force applied by air resistance will be the same. However, if two objects have different mass, that same force will result in different acceleration.

The acceleration will be 1G minus drag. The Earth is sufficiently larger than anything one would drop off a tower so the weight of the dropped thing doesn’t matter at all

How does your model of the universe explain the hammer and feather dropped on the moon by Apollo 15’s David Scott landed at the same time?

Ed. There is an effect of buoyancy that will make denser things fall faster. It becomes noticeable in distances where the dropped items reach terminal velocity or on more dense media where buoyancy is more significant.

In air over short distances buoyancy is negligible, in vacuum there is none

The Earth is sufficiently larger than anything one would drop off a tower that the weight of the dropped thing doesn’t matter at all

F=ma.

Two items of the same shape will have the same amount of air resistance. If they have significantly different masses, the two object experience commensurately different accelerations (or reduction in acceleration), even if the force is the same.

If you take a balloon full of tetrahexofluroride (a gas 6x the density of air) and a chuck of iron the exact same size and shape and throw them off a building, I guarantee the iron chunk will hit first.

How does your model of the universe explain the hammer and feather dropped on the moon by Apollo 15’s David Scott landed at the same time?

It’s called a vacuum, which is famous for not having air resistance. Y’know, the thing we’re talking about?

You are wrong. Falling in a medium is slowed by buoyancy and drag

F=ma has nothing to do with it

buoyancy and drag

F=ma has nothing to do with it

Motherfucker, do you seriously not understand that buoyancy and drag are fucking forces?!?!

Sit your Dunning-Kruger ass down