Message from @hgb | DiscordLeaks

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Message from @hgb

Discord ID: 675489171535691777

2020-02-07 23:50:07 UTC

which is its centre of mass

2020-02-07 23:50:07 UTC

And force would be uniformly downward.

2020-02-07 23:50:14 UTC

which is where force would be applied from radially

2020-02-07 23:50:24 UTC

making it crumple in on itslef

2020-02-07 23:50:25 UTC

g = GM/r2 correct?

2020-02-07 23:50:32 UTC

Well no.

2020-02-07 23:50:51 UTC

Because it has uniform gravitational forces at all places expect its boundaries.

2020-02-07 23:50:56 UTC

Except.

2020-02-07 23:51:02 UTC

Unlike the earth

2020-02-07 23:51:07 UTC

In a round sense

2020-02-07 23:51:19 UTC

as the mass of such size would create such an immense gravity that it collapses in on itself

2020-02-07 23:51:22 UTC

Which would have more gravitation at different parts in it.

2020-02-07 23:51:37 UTC

@Monticks ha but no. Again, the radius makes it not matter.

2020-02-07 23:51:49 UTC

No. You cant wrap your head around the idea that gravity comes from the centre of mass

2020-02-07 23:51:55 UTC

which is the object is unifrom

2020-02-07 23:51:58 UTC

It's like saying: gravity exists therefore the universe must collapse.

2020-02-07 23:52:00 UTC

so your saying , g = GM , then

2020-02-07 23:52:01 UTC

it is the centre of the object

2020-02-07 23:52:18 UTC

boy xD

2020-02-07 23:52:33 UTC

It would be insignificant at large distances

2020-02-07 23:52:48 UTC

So it would be uniform

2020-02-07 23:52:58 UTC

The centre is still the centre

2020-02-07 23:53:32 UTC

Perform an experiment. Have a large plane perpendicular to the earth, place an object near it, see where the gravitational force acts on that object.

2020-02-07 23:53:53 UTC

You're saying it would be towards the centre of the plane.

2020-02-07 23:54:01 UTC

I'm saying it would be horizontal

2020-02-07 23:54:16 UTC

Because centre of mass doesn't account for shape of the object

2020-02-07 23:54:23 UTC

So it's a crude approximation.

2020-02-07 23:54:23 UTC

There is an experiement you can do to test the centre of mass. You hold a ruler over the edge of the table and find the exact point where it doesnt topple over. Now repeat this on top of the previous ruler over and over again until you have a ruler of the edge of the desk

2020-02-07 23:54:33 UTC

each time you have found the centre of mass

2020-02-07 23:54:45 UTC

You're not understanding what I'm saying.

2020-02-07 23:54:57 UTC

I'm not trying to find where the center of mass is

2020-02-07 23:55:03 UTC

now suggesting that the ruler is uniform of density then why doesnt the gravity topple the rulers?

2020-02-07 23:55:13 UTC

Okay okay okay

2020-02-07 23:55:18 UTC

If I have a very long ruler

2020-02-07 23:55:28 UTC

I put an object next to it

2020-02-07 23:55:40 UTC

Do you think the object will be attracted to the ruler or its centre

2020-02-07 23:56:11 UTC

Aka.

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0

2020-02-07 23:56:17 UTC

First of all. The centre of mass definitely is affected by shape just look at the toys that use this effect as a gimmick

2020-02-07 23:56:24 UTC

Well duh

2020-02-07 23:56:26 UTC

The centre

2020-02-07 23:56:27 UTC

But I'm saying