so tell me where is the pressure and temperature gradient?

When you compress a gas it's temperature increases, but it's heat remains constant

when you decomress a gass it's temperature decreases but it's heat also remains constant

Up high the pressure is lower, the temperature is lower

no different

depends on it's joule thompson coefficient

joule kelvin

ideal gases don't change temperature at all

and by heat do you mean internal energy?

Well stick your thumb on the end of a bicycle pump and then push hard

ya my statement still stands

an ideal gas won't change temperature when throttling

real gases do, could go up or down

helium for example has a negative JT coefficient at room temp

so it's temperature actually goes up when it depressurizes

so again @Deleted User , where is the pressure gradient due to temperature in any of this?

b/c that's what you're trying to explain in fluid around us

oi sheeple

guess that stumped him

Think you can make a homemade jet engine?

@Deleted User are you still here?

Might want to look up the coefficents of Oxygen and Nitrogen they however decrease in pressure as temperature decreases

We're not breathing helium, are we?

No

Right

Or else our Voices would be high pitched

Cuz that’s what Helium does to you

@Deleted User so how does this explain our atmospheres pressure gradient?

So does hydrogen although I don't recommend it

LOGICAL FALLACY: LOADED QUESTION: https://imgur.com/yLaiUGA

@INeedMySpace THE SKY IS NOT A FUCKING SPHERE

i didn't say it was

Yes you fucking did

where

he’s talking about the second part of the term

so when you said pressure gradients can be explained by temperature gradients, what pressure gradient were YOU referring to?

you could call it the atmosflat and it would have the same effect in the argument

he's red herring