Message from @Windleaf

Discord ID: 652752078464352277


2019-12-07 06:01:15 UTC  

even if it weighs the same

2019-12-07 06:01:22 UTC  

but its also harder to stop moving it

2019-12-07 06:01:26 UTC  

yes that's what I'm saying

2019-12-07 06:01:34 UTC  

and while youre moving it it should be the same

2019-12-07 06:01:51 UTC  

assuming there is no drag force then moving two objects with vastly different mass should be the same

2019-12-07 06:01:59 UTC  

your acceleration towards a massive body will be less, so there will be less downward force acting on you, but it will still take more effort to carry all of that stuff

2019-12-07 06:02:10 UTC  
2019-12-07 06:02:21 UTC  

itll be the same so long as you arent changing direction

2019-12-07 06:02:28 UTC  

if you are carrying both loads in the same manner

2019-12-07 06:02:31 UTC  

and it isnt turning or anything

2019-12-07 06:02:33 UTC  

yes

2019-12-07 06:02:33 UTC  

Yes, but lifting more mass would be easier if your own mass is reduced, is my point.

2019-12-07 06:02:37 UTC  

then it should be the same amount of force

2019-12-07 06:02:49 UTC  

given there is zero drag, it takes energy to accelerate, but not to maintain momentum

2019-12-07 06:02:50 UTC  

Overall weight is reduced yes

2019-12-07 06:02:55 UTC  

Specially in an rpg scenario where its all about a zero sum of your carry limit

2019-12-07 06:02:57 UTC  

Muscle strength stays the same

2019-12-07 06:03:13 UTC  

Same with mass

2019-12-07 06:03:27 UTC  

if the weight of everything on your person is reduced by gravity being reduced, you can lift something else easier

2019-12-07 06:03:35 UTC  

Yes

2019-12-07 06:03:43 UTC  

If you maintain same muscle mass

2019-12-07 06:03:48 UTC  

which you do

2019-12-07 06:03:55 UTC  

but itll probably fuck you up

2019-12-07 06:03:57 UTC  

in real life

2019-12-07 06:04:04 UTC  

because you suddenly have an abnormally light load

2019-12-07 06:04:13 UTC  

but it has the same volume

2019-12-07 06:04:15 UTC  

so the same drag

2019-12-07 06:04:52 UTC  

sure, but that doesn't mean you can lift say, a jumbo jet in deep space even though it technically weighs nothing

2019-12-07 06:05:05 UTC  

because it still has a lot of mass

2019-12-07 06:05:19 UTC  

Yeah you can only push on it but you wont feel much

2019-12-07 06:05:27 UTC  

I mean in space, any force applied will compound

2019-12-07 06:05:28 UTC  

you can lift it

2019-12-07 06:05:31 UTC  

itll just take a while

2019-12-07 06:05:32 UTC  

You'll move away more than the jet will

2019-12-07 06:05:35 UTC  

so right

2019-12-07 06:05:36 UTC  

and it also depends

2019-12-07 06:05:37 UTC  

inertia

2019-12-07 06:05:38 UTC  

no resistance, no drag, no other force

2019-12-07 06:05:40 UTC  

without drag force

2019-12-07 06:05:47 UTC  

means that there is nothing to reset your progress

2019-12-07 06:05:54 UTC  

so you can infinitely apply force to the plane