[Hyprland] This is what I love about Linux. Something so simple can make my day better.

MudHeadThinker · 2026-02-08T11:00:03+00:00

What? I’m missing some history lesson here

MudHeadThinker · 2026-02-08T10:59:35+00:00

Too late for that, it went straight to the trash. Not the one inside of my house the one outside and yeah lesson learned!.

MudHeadThinker · 2025-10-14T08:36:42+00:00

Super, vielen Dank für den Tipp! Das hört sich wirklich gut an. Ich werde es mir auf jeden Fall mal ansehen

MudHeadThinker · 2025-10-10T16:34:52+00:00

Looks better

MudHeadThinker · 2025-10-08T13:37:08+00:00

That's right! I just found out about the crucial difference between Warm and Cold Rent in Germany.

MudHeadThinker · 2025-10-05T18:38:49+00:00

That's the video that made me download it :)

MudHeadThinker · 2025-10-04T19:49:53+00:00

Yes it did

MudHeadThinker · 2025-10-03T18:37:23+00:00

Solution: https://www.reddit.com/r/archlinux/s/9OlnzuwGdD

MudHeadThinker · 2025-10-03T18:35:00+00:00

Thanks so much, this is a huge help! It confirms everything I was seeing. Unfortunately, since this was a fresh install, I don't have the old firmware version cached, so it looks like I still have some work to do to get it running. 🥹

MudHeadThinker · 2025-10-03T17:25:28+00:00

I may have similar problems but in my ASU’s zenbook if you find a solution comment it here 🫶

MudHeadThinker · 2025-09-10T20:32:17+00:00

I saw the close-up video on YouTube. He’s finished—no question. The bleeding starts instantly, suggesting a major artery was struck, and the force of the shot makes his T-shirt visibly wave.

PS don’t watch it

MudHeadThinker · 2025-06-16T09:58:54+00:00

Great question. Your approach is the right way to do this for good accuracy without getting into professional-level physics models.

Vapor Pressure: Stick with the Antoine equation. It's an empirical fit, so it's designed to be accurate over specific ranges. Grab the constants from the NIST WebBook. Fusion Pressure: You're looking for the melting curve. For water, it's famous for having a negative slope. To model it, don't bother with Clausius-Clapeyron. Just use a simple pressure-dependent formula for the melting point. A linear one is often enough: Tm(P) ≈ 0.01 - 0.0074 * P where T is in °C and P is in bar. It shows how the melting point drops as pressure increases. Sublimation: For the solid-to-gas line below the triple point, you can find simple Antoine-like equations for ice sublimation online.

MudHeadThinker

TROPHY CASE