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ssube

21:01

there's a little bit of stuff in space, so it's not completely silent

Vap0r

That last nitpicky point was kind of what I was getting at. We could never hear it. But it might be able to pick up what technically classifies as a sound

That's pretty neat I think

ssube

But sounds are defined by their volume and frequency, i.e., the wave.

Vap0r

Anything sensitive enough to pick up such small "sounds" would probably be sensitive to interference from a lot of sources I'd imagine

ssube

So, as far as I know, there would be sound and we could measure it. We measure plenty of particle collisions for various reasons.

Kamil Solecki

@Vap0r I'm not sure if you can pick up any sound, when there is no medium to transport the wave

I'd say no

ssube

21:05

> Outer space has very low density and pressure, and is the closest physical approximation of a perfect vacuum. But no vacuum is truly perfect, not even in interstellar space, where there are still a few hydrogen atoms per cubic meter. from wikipedia

Vap0r

@ssube is right though. Space isn't absolutely nothing. It's just very, very close to absolutely nothing

Kamil Solecki

If we are considering absolute vacuum then no. But you are right, absolute vacuum is not the case

Vap0r

> If ware are considering absolute vacuum

We weren't, but you're right in that case :)

ssube

if there were no particles around, at all, then there would be no sound

Vap0r

Anyways, thanks @ssube that was my non-js question of the day.

And my lesson of the day is don't call people space_fags. Even if you don't know what it is and want to be part of the group yourself. It's just not nice

ssube

21:07

that's why telescopes and satellites are so insanely big

they have so few particles to pick up (samples to take) that they need a huge surface and a ton of time

Kamil Solecki

My knowledge is far too undeveloped to know what happens in the vacuum we have, as, in the most extreme case, there are at least virtual particles

They form into either matter or antimatter and anihilate each other

No idea if that would be enough to transit sound

ssube

at the simplest, I think it's the same idea as a Monte Carlo algorithm uses, where more samples become increasingly detailed

Vap0r

@KamilSolecki trust me, matter<->antimatter annihilation would be loud!

ssube

not in space

Vap0r

Good point. For some reason I was thinking of a matter<->antimatter bomb directly above the vatican

Kamil Solecki

21:11

@Vap0r it happens all the time tough. Virtual particles exist due to uncertainty principle, they live for a short time, and pay back their energy when they die

Thus electrons and positons are formed

And they anihillate

That's as far as my knowledge goes

ssube

yeah, one or two bumping into each other is supposed to be a pretty normal thing

Vap0r

I guess it depends on scale. But I believe that as far as reactions go, the volume per molecule of an antimatter->matter reaction is the highest because all of the energy is used up.

ssube

that's why we never see quantities of antimatter, there's too much matter

they get bumped off right away

Vap0r

if you were to react 5kg of anti with regular matter it would be louder than 5 kg of TNT, 5kg of C4, or 5kg of supercritical fissioning plutonium

ssube

what if the regular matter was TNT

Vap0r

21:17

Haha that's actually a really good question

I don't believe it would make a difference since it's not using a chemical reaction to generate the energy. Though I would assume more dense matter would produce more energy, so if TNT is significantly more dense than say a hydrogen molecule AM reaction (it is) then it should produce more energy

ssube

that's definitely past what I understand, but TNT's power comes from burning really quick, which a matter/antimatter reaction wouldn't cause

that makes sense, it being based on density (amount of matter) vs what the matter is exactly

two molecules with the same atoms but a different configuration probably wouldn't be hugely different

Vap0r

There is however some really interesting research on using AM reactions to boost nuclear weapon efficiency by an ungodly amount. I don't remember the percentages, but I remember the yield for the same amount of fissile material was multiplied something like 30->50X

ssube

meh. We can already knock the earth out of orbit, let's do something interesting now.

Using that to power a tiny robot battery that can go inside of a person would be pretty sweet.

Kamil Solecki

Use some nukes to get to Alfa Centauri rapidly

Not as a spaceship; as a planet

ssube

lol

> Hey guys, we're joining your solar system, that cool?

Kamil Solecki

21:22

Ayy lmao come

Vap0r

Currently I think any benefit gained from antimatter reactions is offset because it takes a ridiculous amount of energy to contain without it, ya know, sploding.

Would our atmosphere move with us?

ssube

if we were careful

Vap0r

Or do you think the moon would take its' chance to steal our spot and gain an atmosphere?

ssube

the moon could come with us, if we did it right

and potentially help counter the nukes or whatever to push us faster

Vap0r

Hasn't the moon taken enough of our shit?

ssube

21:24

it's just a matter of our gravity to that thing (moon, atmo) being higher than everyone else's summed + inertia

if we accelerate at < 9m/s and there's no other gravity (from the sun, jupiter, etc, which isn't true), they would follow along

Vap0r

Antimatter-catalyzed nuclear pulse propulsion

Antimatter catalyzed nuclear pulse propulsion is a variation of nuclear pulse propulsion based upon the injection of antimatter into a mass of nuclear fuel which normally would not be useful in propulsion. The anti-protons used to start the reaction are consumed, so it is a misnomer to refer to them as a catalyst. Traditional nuclear pulse propulsion has the downside that the minimum size of the engine is defined by the minimum size of the nuclear bombs used to create thrust. A conventional nuclear H-bomb design consists of two parts, the primary which is almost always based on plutonium, and a...

lol the title reads like something out of science fiction. Check when it was first theorized.... 92

ssube

but it would be like having water on the outside of a water balloon and trying to move it

even if it stuck, it would all go to one side and start to drip off

Vap0r

@ssube that's an amusing thought academically, and a terrorizing one realistically

ssube

gaining matter as we went through space would probably be worse

cause this planet is gonna handle like a 7 series

and hit pedestrians about as well as a mustang

Vap0r

> and hit pedestrians about as well as a mustang

I don't know whether this is a positive thing or a negative thing

ssube

21:28

fullredneck.com/wp-content/uploads/2016/10/… and cdn.fansided.com/wp-content/blogs.dir/346/files/2016/04/… and stuff

Vap0r

So bad, for the pedestrian.

And possibly the mustang

ssube

things can't get much worse for the driver

Vap0r

Hey do you know if babel knows how to deal with destructuring OOTB?

Kamil Solecki

The thing that always amused me as of scientific terminology cluttered together is the definition of a kallman filter

ssube

it should? the es2015+ presets certainly will

Kamil Solecki

21:30

!!wiki Kallman filter

Caprica Six

Kalman filter

Kalman filtering, also known as linear quadratic estimation (LQE), is an algorithm that uses a series of measurements observed over time, containing statistical noise and other inaccuracies, and produces estimates of unknown variables that tend to be more accurate than those based on a single measurement alone, by using Bayesian inference and estimating a joint probability distribution over the variables for each timeframe. The filter is named after Rudolf E. Kálmán, one of the primary developers of its theory. The Kalman filter has numerous applications in technology. A common application is for...

Kamil Solecki

Not this one I think

I mean not this definition

Unfortunate, they changed it. It used to sound like a thing from Starcraft

Actually not. It's just that the polish definition sounds crazy

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