Die Dosis machts.
Wenn man jetzt vergleichbare Mengen an Nikotin wie bei Zigaretten nimmt, dann ist es sicherlich bei weitem nicht so schlimm wie normales rauchen.

Ich sehe aber seit Jahren den Trend immer höherer Nikotinlevel bei Vapes. Macht die Kunden extremer süchtig also ist für die Hersteller quasi unvermeidlich um im Wettbewerb zu bleiben. So lange bis die Gesundheitsrisiken wieder so groß sind wie bei Zigaretten.

Die Risiken haben nicht den Wert weil es sich zufällig so ergeben hat, es ist ein Abwägen zwischen Wettbewerb und selbstregulation um ein Eingreifen der Politik zu verzögern. Diese Produkte sind gerade so tödlich wie die Industrie spekuliert womit sie noch eben so durchkommen.

Wie das jetzt bei Shishas etc. aussieht weiß ich nicht, ich denke mal da steckt keine voll integrierte Industrie dahinter. Also die Bars sind unabhängig der Pfeifenhersteller sind unabhängig vom Tabakhersteller. Vielleicht gibt es hier einen Schutz durch die zerstreute Natur der Bars.

It’s been static for a while in the large installations I have seen.

Weird definition then. I just called it that geometrically on my own.

Not sure about any native bread that got erased, I was just speculating. I was there in presence and saw no bread, only imported preserves of like spanish and turkish breads.
I also saw regular cultural erasure, or what seemed like it anyway, of the general local culture that used to be in that region.
For all I know it could equally be the fault of the climate or something else.

Kazakhstan is quite far west as asia goes. I was thinking more novosibirsk. Height of India. and even further east. Bangladesh is about the center, so western mongolia and krasnoyarsk.

Or that the northern parts have been culturally genocided by russia and have not retained their original bread. The areas I listed all have some history of colonization.

There is some more complexity. Melee jetpack jumping is still a thing, but with more skill, you need a sort of double jump that eats jetpack like nothing and takes reach, then land on a fitting slope to launch. You’ll loose height and it ends when you hit ground, so aiming this well under those conditions feels really good. The longer the jumps the more efficient.

There are also movement upgrades pairing with this you can select. Either just skipping it and going for run speed, or embracing it speccing into the jetpack.
This also makes sure things don’t feel slow anymore down the progression no matter the specifics.

yes, yes.

yes, I think so, no.

But I don’t think that’s all that important. Mlre importantly it feels more interesging now, and probably has a few cool new things you didn’t even know you wanted.
I found nms is pretty reliably getting less boring and anoying over time, though it’s still not perfect by any means.

Recently did an almost full playthrough for the first time.
I’d tried a few times over the years but this one stuck.

Any maybe winters not cold enough people would appreciate some warmth

Der Film thematisiert die Mechanismen nationalsozialistischer Propaganda und zeigt deutlich Parallelen zu heutigen Verführungsgefahren auf.

Bro talking about terraforming venus while we’re still not done venusforming earth.

Maybe they meant the cops? Like:
“Leading cause of wrongful convictions is [cops] doing wrongful acts. If [cops] can’t do the time, don’t [forge evidence].”

The “bread” a lot of the world calls by that name does not even deserve that term. It should be called “toast”, cause the only thing it’s good for is getting toasted.

I can confidently say that north and south american, aswell as north central asian bread isn’t. Many others only have one specific local bread variety, which are good but do not constitute culinary bread cultures.

Döner

That’s the Great Atlantic Garbage patch

I doubt even the chinese can build a train line from scratch in 3h

It’s not a key, it sends left win + left shift + f23. Can’t be disentangled from those other modifier keys, true remapping is impossible unless you can get to the keyboard firmware. Even under linux.

No idea why noone mentioned it, but this exists.

https://generalfusion.com/

The core idea of combustion is using momentum to achieve combustion to generate back momentum (and heat).

The laser fusion detonation is similar, but I find other concepts reflect the idea way better.

General fusion uses liquid metal, that is compressed into the center trapping a bubble of fusion gas under extreme pressure for a moment. Inspired by cavitation bubbles in water that when symmetric enough can produce light and evaporate metal.
The fusion then bounces back onto the liquid metal, and fusion products are absorbed by it, so the heated liquid can be cycled into a heat engine. I don’t think there is an intention to recover mechanical energy though.

Another approach is dynamic z-pinch. Helion would be an exanple.
You form a magnetic enclosure trapping fusion gasy then push the magnetic enclosure inwards, compressing the gas to fusion. The charged fusion products (needs fusion that doesn’t emit neutrons) are again trapped in the field, pushing against it with far more speed, effectively far higher temperature, causing the field to exoand again against the controlling magnetic coils, that now operate in reverse generating current from regeneratively breaking the push.

I think this is the closest analogy to combustion engines. An initial push is inserted via momentum (of the magnetic field), which compresses the fuel, combusting it, increasing pressure/temperature, pushing back against the confinement which now absorbs the (magnetic) momentum, turning it back into power.
The only difference is that between cycles the power to keep the next cycle going is stored in capacitors not as momentum of something. And ofc the thing in motion is a more intangible magnetic field, together with currents running in magnets, not physical mass.

Hi, didn’t expect to see you here.

Let’s look at static differences first.
Absolute gravitational potential itself is impossible to measure, since all frames of reference act the same. But we can easily measure differences of potential using accurate clocks. This works well on the surface of earth in reference to outer space for example.
When measuring underground, we can also measure the accceleration along the path when walking there, since the acceleration is caused by the gradient in gravitational potential.
In practice though we would still use the clock method since we can measure time so much more accurately than acceleration.

Going into orbit though, we get another problem, namely we are no longer “still”. The idea of gravity itself is a neat model, but it’s still general relativity underneath which means effects of our movement and of “gravity” are always mixed. So you can put a clock in orbit, but have to very accurately know the exact orbit to make an absolute measurement.
In effect the gps satellites have done this, and we can see their rate of time and attribute it to their orbit vs. their location, often written special vs general relativistic effects.
This value is not very useful, since not only do we average over the entire orbit, we also don’t know the orbit precisely enough.

We can do better though, good enough to measure changes over time.
By building an even better optimized “clock”.
Regular clocks act kinda like gears. We have a mechanism that oscillates at a very stable high frequency, and then “gear” a mechanism to match it, but at a lower frequency, until we get to something we can measure with regular electronics. At that point, we get averages of many oscillations. We then have to send them on to a different clock, since we have nothing to measure our ticks against, for us they are evenly spaced. That receiver has to catch the very high bandwidth signal of billions of clock ticks, and compare it to a second clock.
Any anomaly of the signal path will look like a shift in time, a change in gravitational potential difference of the two clocks. Worse, atomic clocks are designed mainly for long-term accuracy, so they tend to have shifts in rates over shorter timeframes. Thus, instead we strip stuff to the bare minimum, and do our own clock with blackjack and hookers and without the whole clock part where it measured time.

Einstein had a few Gedankenexperiments that still show up in lessons on relativity because they are good. One common object is a laser clock. You bounce a laser between plates, and the rate of bouncing changes according to the local rate of time. This turns out to make a pretty shitty clock, but lets you do optics on the output making for a really good comparison between two different clocks, via interferometry.

Since you need to measure two locations anyway to get the time difference, you can send out two beams of the same source, thus matching exactly, and align them on the return, making their path lengths precisely equal. On average.
If you do this well enough, you can see temporary changes to this, as fast as you can measure the beam interferences, since those beams are in effect comparing at extremely high frequency.

You can now dump this instrument in orbit, and measure the changes along the orbital path, forming a high detail map of earths gravitational differences from the ideal. Or you can put it on earths surface or in outer space and wait for abrupt changes of gravity bumping into you.

Because ofc moving masses “update” the gravitational potential field, and if those updates happen quickly enough we can measure the change with our very precise change detector differential clocks, while the absolute difference might be too small to see on regular clocks, or affect all clocks equally due to great distance of the source, or the subsequent waves may cancel the change, averaging to 0.

Or would it not be possible because the sensor itself would interfere with the readings?

For one all the setups we have so far want to be extremely still, a single piece at rest. Not to prevent gravitational waves or even permanent changes in potential, but to prevent mechanical vibrations.
The equipemnt is extremely light as gravitational masses go though. When you go up in scale, mass changds with volume, with the cube, but strength of gravity, of the gradient, with the square of distance. So when comparing a small interferometer sitting on a 1m satellite, its effects are a million times weaker than earth, with a diameter on the order of millions of meters. Actually far less, since the satellite isn’t a solid ball of dense material.

If you wanted to you could probably spin up a large barbell shape in space right next to a gravitational wave detector and not annoy the scientists from vibrations but from the waves. Probably. Take care it’s in shadow, otherwise the changes in light reflection onto the satellite would probably overshaddow your waves.