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Early_To_Risa@sh.itjust.works

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Anon is a physicist (sh.itjust.works)

submitted 7 months ago by Early_To_Risa@sh.itjust.works to c/greentext@sh.itjust.works

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[–] VindictiveJudge@lemmy.world 19 points 6 months ago (1 children)

He's still arguing that heavy objects would fall faster when dropped anywhere on Earth, though, specifically bringing up air resistance as the reason. His argument is that they would fall at the same rate in a vacuum.

[–] HandwovenConsensus@lemm.ee 31 points 6 months ago (1 children)

But that's true, isn't it? Putting aside volume and shape.

[+] VindictiveJudge@lemmy.world -6 points 6 months ago* (last edited 6 months ago) (4 children)

He's close, but not quite there. Air resistance slows things, and in a vacuum all things will fall at the same rate, yes. But, weight has zero impact on the rate an object falls through the atmosphere. Air resistance affects things based on their shape and permeability. He's still saying that a heavier object will fall faster in atmosphere, all other things being equal, which is false.

He clearly knows air resistance is a thing, he just doesn't understand how it works.

[–] MrConfusion@lemmy.world 33 points 6 months ago* (last edited 6 months ago)

Hi. Physicist here. You are absolutely wrong. The mass of an object does not affect the magnitude of force of air resistance which acts upon a falling object. But the acceleration that object will have is given by Newton's second law as Force divided by mass. So a heavy and a light ball with the same shape will experience the same air resistance, but the heavy ball will "care less" and thus fall faster.

[–] dreugeworst@lemmy.ml 20 points 6 months ago

But it does affect the downward force acting on the object. Given two objects of the same shape but with different masses, one will indeed fall slower than the other. This is because the ratio of weight to surface area differs a lot between the two. Here's a calculator from NASA you can play with, and a relevant passage from the same page:

If we have two objects with the same area and drag coefficient, like two identically sized spheres, the lighter object falls slower. This seems to contradict the findings of Galileo that all free-falling objects fall at the same rate with equal air resistance. But Galileo’s principle only applies in a vacuum, where there is NO air resistance and drag is equal to zero.

https://www1.grc.nasa.gov/beginners-guide-to-aeronautics/termvel/

[–] Knock_Knock_Lemmy_In@lemmy.world 10 points 6 months ago (1 children)

A ping-pong ball sized lead shot and a ping-pong ball both fall at the same rate though air?

That doesn't sound right.

[–] andmonad@lemmy.world 1 points 6 months ago

I don't think he's talking about air resistance but about density, which is pretty close to the notion of weight and also affect fall speed. He probably came to this conclusion by looking at how things fall (or not) through water.