5085 pts ยท March 8, 2017
Looks like a vintage Corelle "Butterfly Gold" plate, which contains dangerously high lead levels in the pattern. If you have these granny plates, you probably should stop using them!https://www.everythinglead.org/index.php/Corelle_Butterfly_Gold_dish
He's a saturation diver, 1000ft dives are not uncommon with this technique -- divers live in pressurized accommodations on the surface, and transfer to/from the work site in a pressurized diving bell (the lighted platform in the end of the video). When the project is completed, their habitat is decompressed over the course of days or weeks until they are back at 1atm.It's cool stuff, read the wiki link!
"morally vantablack"
Parasitic flatworm
Or veterinary-grade Vetbond, if you're cheap like moi
*gasp* the brick dick!
Neural stimulation (e.g. cochlear implant) and recording (e.g. neuralink) are very different modalities ... Stimulation electrodes can remain functional with a substantial amount of glial buildup, whereas recording electrodes (which are usually much smaller, for better spatial selectivity) can be completely encapsulated and insulated from the surrounding signals. Long-term high fidelity neural recordings are currently very difficult to achieve.
Neural stimulation and recording are very different modalities ... Stimulation electrodes can remain functional with a substantial amount of glial buildup, whereas recording electrodes (which are usually much smaller, for better spatial selectivity) can be completely encapsulated and insulated from the surrounding signals.
I work for a neural MEA company. Even inert electrode materials (e.g. Pt/It, SiC, which are "ignored") eventually get encapsulated by glial buildup, which insulates the electrode sites from the *very* quiet neural signals. Long-term recording fidelity (greater than 1y) is very difficult to achieve.
Sounds like Blindsight by Peter Watts
I think he is referring to the first conical bullet, instead of round musket balls: https://en.wikipedia.org/wiki/Mini%C3%A9_ball
There is a historical precedent here: https://en.wikipedia.org/wiki/White_elephant
It's a real product! www.kickstarter.com/projects/ascentaerosystems/sprite-the-portable-rugged-totally-different-small
If you don't mind sharing, how much did the powder coating cost? I'm working on some similar tables.
Gorgeous cabinet, @OP. What are you using for motor controllers?
Probably ferric chloride
That is so cool!
Holy shit @OP, is your dad using an EksoGT robotic exoskeleton?!?
@op, what's the layer thickness? Great print!
a Keyence VHX-5000 digital microscope
These were all captured using a Keyence VHX-5000 digital microscope
Thanks, I'll try to post more frequently!
I didn't tag it as #TeamHuman during the zombie crisis, but I'm glad you like it!
https://en.wikipedia.org/wiki/Homopolar_motor
No problemo. I'll try to post more next week!
Joke's on you, I'm already a felon
Looks like a vintage Corelle "Butterfly Gold" plate, which contains dangerously high lead levels in the pattern. If you have these granny plates, you probably should stop using them!
https://www.everythinglead.org/index.php/Corelle_Butterfly_Gold_dish
He's a saturation diver, 1000ft dives are not uncommon with this technique -- divers live in pressurized accommodations on the surface, and transfer to/from the work site in a pressurized diving bell (the lighted platform in the end of the video). When the project is completed, their habitat is decompressed over the course of days or weeks until they are back at 1atm.
It's cool stuff, read the wiki link!
"morally vantablack"
Parasitic flatworm
Or veterinary-grade Vetbond, if you're cheap like moi
*gasp* the brick dick!
Neural stimulation (e.g. cochlear implant) and recording (e.g. neuralink) are very different modalities ... Stimulation electrodes can remain functional with a substantial amount of glial buildup, whereas recording electrodes (which are usually much smaller, for better spatial selectivity) can be completely encapsulated and insulated from the surrounding signals. Long-term high fidelity neural recordings are currently very difficult to achieve.
Neural stimulation and recording are very different modalities ... Stimulation electrodes can remain functional with a substantial amount of glial buildup, whereas recording electrodes (which are usually much smaller, for better spatial selectivity) can be completely encapsulated and insulated from the surrounding signals.
I work for a neural MEA company. Even inert electrode materials (e.g. Pt/It, SiC, which are "ignored") eventually get encapsulated by glial buildup, which insulates the electrode sites from the *very* quiet neural signals. Long-term recording fidelity (greater than 1y) is very difficult to achieve.
Sounds like Blindsight by Peter Watts
I think he is referring to the first conical bullet, instead of round musket balls: https://en.wikipedia.org/wiki/Mini%C3%A9_ball
There is a historical precedent here: https://en.wikipedia.org/wiki/White_elephant
It's a real product! www.kickstarter.com/projects/ascentaerosystems/sprite-the-portable-rugged-totally-different-small
If you don't mind sharing, how much did the powder coating cost? I'm working on some similar tables.
Gorgeous cabinet, @OP. What are you using for motor controllers?
Probably ferric chloride
That is so cool!
Holy shit @OP, is your dad using an EksoGT robotic exoskeleton?!?
@op, what's the layer thickness? Great print!
a Keyence VHX-5000 digital microscope
These were all captured using a Keyence VHX-5000 digital microscope
Thanks, I'll try to post more frequently!
I didn't tag it as #TeamHuman during the zombie crisis, but I'm glad you like it!
https://en.wikipedia.org/wiki/Homopolar_motor
No problemo. I'll try to post more next week!
Joke's on you, I'm already a felon