Message from @Ivan Pavlovich
Discord ID: 564185863089684491
So you admit to a downwards force and a normal force?
So as you can see you can modify the direction and rate of acceleration by changing your density
@Ivan Pavlovich force is mass times acceleration is it?
yes?
NET acceleration
What does this have to do with balloons and more importantly gravity
@Hamburger Guy what's gravity?
If that upwards arrow overpowers the downwards, you will float.
@Human Sheeple how does that photo prove your first law
You can set pVg equal to your weight to see how many balloons you need to fly.
If you can make your body a lower density than the medium, you will float in accordance with archimedes principle
Ok and
@Ivan Pavlovich And I can make up math too, n = RM/I
number of retards in the room = Retardation factor x Morons / IQ of the lowest person in the room
Actually hold on I need to do something
Busy day
You think this is made up?
But yeah until I see scientific method experimental evidence of your "g" I'm going to discount it
You do realise that this equation is verified, right?
So verify g for me please
g is just downwards acceleration.
GRAVITY DROP SOMETHING FLIES UP: https://imgur.com/a/0gpjvOK
so g = about + 2 m/s^2 yes?
That's accelerating upwards isn't it?
Yeah thought so
That's disregarding air resistance, buoyancy, etc.
Sorry I want cause and effect scientific method experimental evidence, I don't want your beliefs
I am looking at acceleration here
I can show you very clear evidence changing densities changes acceleration
It's just a belief that stuff accelerates at 9.8 in a vacuum?
And yes, nobody denies that buoyancy exists.
Same as sitting on a chair can bring your acceleration to 0.
That brings us to Sheeple's 2nd law of accelerationism
2. CHANGING THE DENSITY OF THE MEDIUM: https://imgur.com/i0Cww6Y
```in a vacuum```
that's changing the density of the medium
Watch closely
they do not accelerate at the same rate
Ah yes, I've seen this before.
However I would argue the bowling ball and the feather have more similar body density to medium density ratios