It almost sounds like you’re describing a charge card instead of a credit card. American Express offers those in the US, but it’s not nearly as widespread in usage as a standard bank credit card.

Hey buddy, just wanna let you know you’re pretty stupid and you might need to get that condition checked out by your doctor.

This is basically the philosophy of the Amish. I’ll pass.

This is how hackaday posts have been… for like a decade. I guess it’s somewhere between articles and link aggregator.

Don’t look into the politics of the person who probably made those stickers!

I just don’t really give a shit. I like the car and it works well for me and provides a lot of comfort. I’m sure the ceos of all the other car companies are equally as shitty as Elon but quiet so does it really even matter? Don’t kid yourself that you’re saving the world for buying a Volvo or Toyota instead of a Tesla.

There’s plenty of shelter space but you can’t do drugs there so people don’t go. But hey I guess you can use as much as you want in prison!

My Whole Foods just uses paper bags, so I guess this doesn’t affect me :shrug:.

I don’t think you have a point. You’re shaming people in a community who don’t give a fuck about your concern trolling. Calling out shitty organizations for shitty behavior in the loudest way possible is often the only way to enact change. There’s a distinct power imbalance between companies that have money and resources versus individuals in the open source community. Polite and firm are useless unless you have additional leverage.

Thanks this is a lot of great detail on the dosing mechanism that I think is really interesting. I love reading up on the experimental details and the actually components used to make these experiments work.

300mg of orally ingested THC spread out over 24 hours is about equivalent to consuming 1 typical candy/gummy every hour for 24 hours of the day. A reasonable or average or normal person would be uncomfortably high at these dosages. I also imagine the bioavailability of oral ingestion is less than the dosing mechanism you described although I’m not sure (is that getting taken up through the lymphatic system? How does it differ from oral ingestion or injection into the bloodstream?).

Fascinating stuff, thanks for sharing your knowledge.

Maybe I’m misreading the only plot that mentions dosing numbers anywhere. It looks like the largest dosing group is getting 3mg/kg/day. That’s a lot scaled up to a 100kg person (like 10x a normal gummy for example).

You’re imagining a future where screen resolution doesn’t improve and lenses can’t solve these issues? Are people really this short sighted?

You could easily create a package that couples the authenticated device with a screen showing the faked images and bring that around. If there is a market for inauthentic images that appear authentic, people will easily bypass this technology.

Just take a picture of your manipulated picture/video from the Sony phone. This does not guarantee anything of value.

I found this repo interesting just for the sake of centralizing a lot of useful info around VHS. Even if you don’t follow this path, the knowledge might help: https://github.com/oyvindln/vhs-decode

Thinking about this more , you probably want this to develop a curve in your color space that represents something with constant CMYK values for your chosen light source.

https://python-colormath.readthedocs.io/en/latest/conversions.html

E.g. your sodium light is 100% yellow, 10ish % magenta. Any color that varies cyan from 0%-100% and black from 0%-100% should presumably not reflect any additional color information (since the source light doesn’t have any cyan and black is just giving brightness)

I also think this means that as long as you hold Y and M constant, you can vary cyan and black for your comparison colors that will look the same. If you try to vary cyan and yellow or magenta at the same time then your effect probably won’t work.

This is tricky because you have multiple curves in the color space that are valid when just considering a single wavelength. The reality is, your lamp emits a spectrum of light (sharp, but still has a width). There’s also the variability in perception. But I’m not sure what the “bandwidth” of our eyes is and what color resolution humans are capable of detecting.

Low pressure sodium lamps have a pretty sharp spectrum: https://en.wikipedia.org/wiki/Sodium-vapor_lamp

Looking at the color spectrum, have you just tried and colors in the green to blue to purple range? I don’t think you need a Python library for this, I think you need to experiment. There’s a lot of dependence on the reflectivity of the material you’re looking at in addition to the color you see under sunlight or even indoor light with broad spectrum.

Try blue and green and see if both look the same under the lamp.

Just going to point out that ROOT has used a c interpreter to do this for many many years. Every particle physicist has suffered the details of this, but hey, it’s pretty handy:

https://root.cern/primer/

It’s literally the tech bro news site, though, by design. This criticism is ridiculous. YCombinator is the organization that funds so many Silicon Valley tech dreams.