it was a very well thought out explaination however the problem is that you are applying RE theory to FE theory, In RE our weight comes from the gravitational attraction between us and the earth so no matter our altitiude there is stall a foce acting upon us. Now in FE the force that causes us to have weight is the acceleration of the ground under us which while we are on the ground will cause the exact same result as in the RE, but as soon as we leave the ground the earth is no longer pushing up on us so now we only have mass so in F=ma the force acting upon us is zero so in FE we would have no weight. Now I understan %100 that this does not reflect reality but that is my whole point FE theory does not reflect reality in this case, and since you guys are such fans of calulating things locally this should be pretty easy to see, the only force acting upon the parachutist on the FE is the wind resistance and nothing more so that would mean that he would be accelerated upward, does this mean he would never land? Given enough time he would not but I really do not want to take the time to set up a numerical modeling poblem to see how long it would take him to accelerate back up to 9.8m/s2 but even if it would take 500 miles to get back to that acceleration we would still notice the effect as our relative velocity would continue to decrease as we fell back to earth, unlike what happens in reality where we reach a terminala velocity and maintain it
I
am doing this from FE 'information'. I think what you're not getting is air isn't a vacuum. Let's remember, the earth is pushing up on the air, just like the UA is pushing on it, which means the air is also accelerating at 9.8m/s
2. If you were able to 'walk on air', you would weigh just as much standing on air, as you did standing on the ground. This is the part you're missing, that the effects of the UA are still being felt when you're in the air. When a parachutist jumps out of a plane, it's the air that causes them to accelerate 'upwards' (but not as much as the earth, as they do make their way 'down' through the air
at a velocity which takes away from their accelerating rate). They accelerate upwards (and therefore have weight) because the air pushes up on them. This is just like the wind blowing, pushing on things it hits. Get the weight thing, now? -prays-