Message from @mineyful

Discord ID: 632015243551309874


2019-10-11 00:40:46 UTC  

Hot, isn't it?

2019-10-11 00:40:48 UTC  

so we're using NASA to prove that the exosphere was recorded

2019-10-11 00:40:54 UTC  

even though you say NASA is not to be trusted

2019-10-11 00:40:58 UTC  

So how again can NASA magically pass through without burning.

2019-10-11 00:40:58 UTC  

pick one

2019-10-11 00:41:11 UTC  

No, but you claim to trust NASA, so I'm trying to provide proof that would fit your close-minded agendas.

2019-10-11 00:41:22 UTC  

If you trust NASA, I'll use their information against you.

2019-10-11 00:41:35 UTC  

my response was that the air density is very low in the upper thermosphere

2019-10-11 00:41:44 UTC  

you neglected to state the 2000C was in the upper thermosphere *only*

2019-10-11 00:41:54 UTC  

I do believe that gravity is a real phenomenon. I do believe that Newtonian equations we learned in school are good approximations describing the behavior of matter under the influence of gravity. I do NOT believe that any of your teachers in school or the scientists that publish articles have any accurate idea of *what* gravity is *why* it is.

2019-10-11 00:42:01 UTC  

it's generally accepted that the further you go up, the less dense the atmosphere gets

2019-10-11 00:42:02 UTC  

The ISS also supposedly orbits in the thermosphere

2019-10-11 00:42:07 UTC  

So... how is it not burning up?

2019-10-11 00:42:08 UTC  

Lol

2019-10-11 00:42:13 UTC  

lol if you just read for a second

2019-10-11 00:42:25 UTC  

the higher you go up = less dense molecules = less molecules to bump into

2019-10-11 00:42:34 UTC  

less molecules to bump into = less heat generated

2019-10-11 00:42:46 UTC  

The Earth is the center of the solar system, it only makes sense.

2019-10-11 00:42:49 UTC  

while the molecules are very very "excited", making the hot, there are so few that it isn't as insane

2019-10-11 00:42:56 UTC  

I smell a fallacy

2019-10-11 00:42:58 UTC  

don't shift the topic

2019-10-11 00:43:04 UTC  

Are you two debating about how the ISS doesnt burn in the thermosphere?

2019-10-11 00:43:07 UTC  

if x, then y must be true

2019-10-11 00:43:18 UTC  

Is the ISS made of magic space material?

2019-10-11 00:43:30 UTC  

And with my last statement, anyone that gives you some simple explanation of gravity as if he understands it, is lying.

2019-10-11 00:43:32 UTC  

Another way to retrieve the air density is through the drag torque applying on the satellite that changes its rotation rate according to its geometry, orientation, relative air velocity, and the air density. This method was applied successfully to the Venus Express spacecraft and allowed atmospheric density retrieval in the Venus thermosphere [4]. This second method requires the position of the center of application of external surface forces, which is the center of figure (CoF) in our case, to be different from the one of the center of gravity (CoG). This was achieved with the Venus Express spacecraft by rotating one of the two solar panels.

2019-10-11 00:43:41 UTC  

it's literally like you're not listening to my explanations

2019-10-11 00:43:44 UTC  

Ok, but that doesn't change the heat of the thermosphere...

2019-10-11 00:43:45 UTC  

it's less dense in the upper atmosphere

2019-10-11 00:44:41 UTC  

density is extremely important here

2019-10-11 00:44:53 UTC  

The reason why spaceships do not burn up while leaving the atmosphere is that they are going the slowest at low altitudes where the air is densest and they only get to very high speeds when the atmosphere is very thin

2019-10-11 00:44:58 UTC  

If we are talking about the thermosphere, which receives radiation from the Sun, you must also realize that radiation also cools things down. Any object that is heated up will radiate that heat away, the hotter it gets the more heat it radiates per second. So as the Sun's input is constant, eventually the object will reach a temperature at which it is radiating the same amount of heat as it is absorbing. This is known as the "radiative equilibrium temperature". Part of satellite design and engineering is in minimizing the absorbed radiation from the sun, and maximizing the radiated radiation. There's whole books on the topic that you can read yourself actually

2019-10-11 00:45:02 UTC  

According to?

2019-10-11 00:45:22 UTC  

when the atmosphere is very thin, it's less molecules for the aircraft to push through, generating less heat

2019-10-11 00:45:27 UTC  

the ISS is like any other satelitte in this sense

2019-10-11 00:45:36 UTC  

Reptilian controlled.

2019-10-11 00:45:40 UTC  

The determination of the air density along the track of low-Earth-orbit (LEO) sat https://arc.aiaa.org/doi/full/10.2514/1.A34324ellite missions is possible by the recovery of the air drag force and momentum applying on the satellite.

2019-10-11 00:45:46 UTC  

reptilian controlled is shifting too far off the topic

2019-10-11 00:45:47 UTC  

stay on it

2019-10-11 00:46:23 UTC  

You refuse to accept new knowledge.