A few years ago I made a "string art" portrait for my girlfriend at the time. It's made from a continuous† 2 km long black thread, woven around a loom made from a bicycle wheel rim. I'm still very proud of how it turned out.
†OK fine, it broke at a few points and I had to knot the ends together, but it's the principle that counts.
I really wanted to make something creative for her, but I'm pretty terrible as an artist, so I instead applied a talent I do have: making 200 line Python scripts. Apparently the first to do this was an artist named Petros Vrellis, though I did come up with it independently.
Sadly, we've broken up since then, and we didn't remain friends. I do wonder what happened to it, I can't imagine she'd've thrown it out, but on the other hand it would be odd to have a physically quite large memento to a previous relationship hanging from your wall.
I'm not sure I'd be able to figure it out easily if I didn't already know how a CAT scan works, but I agree it's a excellent demonstration of the principle
Not knowing how a CAT scan works, beyond a vague intuition from already knowing what the acronym stands for, and not wanting to look it up before making a guess: can I assume it’s akin to this, in that radiation is shot from an emission source, through the target, to a detector on the other side, with the density of the material attenuating the signal in predictable ways, from which we can apply a transformation to some large number of such measurements to achieve a computed 3D result?
In a closer analogy to a CAT scan, each nail would have a string connecting it to a ~10 degree spread of nails on the opposite side, and each string would be grayscale.
The real physics is quite tricky, because you actually emit a variety of x-ray energies at once, each with different penetrating power, and xray flux varies spatially as well. this means each of your angular strings has its own grayscale response curve.
This is awesome, and am so tempted to try.... one question, how long did it take to physically complete this! Also I know you had to "repair" the string a few times, but is this a 2mi single thread?
I don't remember exactly, it's been 5 years, but I remember there were almost 4000 loops. The loom is a little less than a meter across, but most loop don't span the entire width of the loom, so half a meter per loop is a good estimate, which would yield 2 kilometers. I think that's only 20 euros worth of thread.
Similarly, assuming the average loop took me 10 seconds to do, that amounts to about 10 hours, and I do remember that the final step only took a day or 4, with a few hours of work every evening.
I'm sorry the relationship didn't work out. I can completely relate, though. I think just about every "coolest physical thing" I've made ended up going to an ex-wife or ex-girlfriend.
I guess I'm just not motivated to make cool physical things for myself.
I made a baseball bat that uses explosives to add a bunch of energy to your swing and hit a baseball really far. It uses the explosive blanks normally used to shoot nails into concrete (e.g. ramset). It worked way better than I expected, didn't have a kick, and turned out to be just a really neat thing to look at while sipping a frosty beverage. I also made a video about it if you're interested: https://youtu.be/Puo6Vgcbxps
I love your videos! Not just because of your incredible command of mechanical engineering, electrical engineering and programming.
The thing I think you do so well is you take a statement like a little kid would make- I want to only hit home runs or, I want to sink a basket every time. And then you break down the problem and solve it. It's incredibly inspirational!
My girlfriend's son was struggling in school with math and science and he just didn't see how they could be cool or why they were important or something. I showed in the videos from your channel and it was so incredible where I was like hey look. Here's something that seems like total fantasy or like something like a six-year-old would say, but look with science and engineering you can make it happen.
Anyway, thank you very much Shane for what you do and how are you inspire people
I shouldn't be surprised that you post here. Your channel is amazing and inspiring, and I love that you dive into your failures and dead-ends, and hide little background gags on the monitors. And the pranks and roasts between you and your wife are so much fun to watch - you're a lucky man.
I'm honestly a little jealous that you've managed to carve out a niche where you get to imagine and built insane/cool stuff. A dream come true! Congrats and great channel.
I've gotta say, I appreciated how you spent literally 75% of the video explaining all your safety precautions and how they all helped you avoid death, dismemberment, or disfigurement.
Your productivity absolutely phenomenal. Each video that comes out seems like you make what would take a normal person a good part of a year to produce in a fraction of the time.
I helped build “The Cloud” without really knowing it lol..
I joined a 5 year electrical apprenticeship after highschool. I spent many days between 2006 and 2012 building out crazy electrical systems in these giant warehouse looking buildings in Northern Virginia, for DuPont Fabros and Digital Reality.
I had no idea exactly what the purpose of these server farms were for, but they just told us “if we build it they will come” lol.
I had always wondered who “they” was, and who was renting so much server space.
Eventually we heard that Amazon was leasing some of these buildings, but it was crazy to think that an online bookstore needed such crazy infrastructure.
Flash forward to today and these buildings are called “us-east-1” lol..
Funny, I was building fiber optic switches around 2010-ish. I'm not talking one of those cute little 48 or 64 port things. I'm talking 250+ inputs and 250+ outputs, where each input is able to route to any output port independently, all with under < 4dbm loss through the optical core, and a switching time of something like 1-2ms.
IIRC, these things were like 18U beasts. I think 4 of them fit on a standard rack? One of the reasons we employed interns was so we'd have people to plug the damn things into the calibration and diagnostic rigs if necessary. Think about it: each LC connector has to be cleaned, then plugged into the correct port, for over 500 ports. If cleaning and plugging in the connector takes, say, 2 seconds in total, that's 30 minutes just to get it hooked up to get checked out.
Besides getting to play with high powered lasers and work on exotic hardware pretty much nobody has ever seen (which also sold for more than my annual salary at the time), I frequently got to work in one of our clean rooms (my sinuses loved me at that job lol), work with hardware and mechanical engineers, and usually had to figure things out on my own, because nobody else was building these things at that scale and there were no fine manuals to read.
Yes, your timeline is correct with the boom in Ashburn. It started out with Acc1, then Acc2 and then Acc3.. These were just some tiny buildings compared to the DC’s that would come in the next 20 years. ACC4 came online somewhere around your timeline as well.
ACC4 was the most state of the art data center in the world when it opened, and it was like 10 times the scale as the previous 3.. Construction halted on ACC5 when the 2008 recession hit. They said the funds dried up to continue construction, and laid thousands of workers off one morning.
Things picked back up a number of years later, and I believe they are past ACC12 now lol..
But to answer your reply further, yes colocating already existed in the northern Virginia area because of Arpanet, the internet exchange, and AOL all being in the area pre 2000’s.
DuPont had been building in Datacenter Alley for a number of years already, but the buildings were way smaller; and the systems less complex. ACC1, 2 and 3 are all still there in operation today and have been retrofitted a number of times since 2000. Today, those tiny DC’s are apart of the bigger network in the area; and are just connected together via private fiber loops.
> It’s the software layer from AWS that made it “The Cloud”
That's one way of looking at it, but no one would have used that software if OP had done a sloppy job with the electrical system.
I'm sure there was plenty of boilerplate code in that software (and some very innovative code) and plenty of sophisticated work done to create the physical datacenter.
> Amazon doesn’t actually own data centers; similar to how they don’t own warehouses.
Are you certain they don't own at least a fraction of the facilities they use? Amazon has very good credit (AA or AA-), which in a lot of cases probably means they have access to cheaper money than their landlord does. When you factor in the landlord's profit margin, it just doesn't make sense for Amazon to rent rather than to issue bonds and buy.
I imagine that they do rent as well, since it lets them respond more quickly to demand / business needs, but it would just be really weird for them not to own any of their own critical infrastructure.
Edit: Looks like it's a mix of leased and owned, on both counts
A building I worked in had multiple tenants. My (now former) employer leased five of the six floors, but the big sign on the building advertised a company that had half of the first floor at most. Obviously they were willing to pay more money for advertising rights.
This is like saying “I sell cardboard boxes to Amazon, who uses my cardboard boxes to ship packages” … and then claim you built the logistics and online behemoth of Amazon.com
I’m not trying to be a hater. But this story sounds more like you were a supplier to something Amazon built, not something you built.
When you’re building data centers, you are fully aware you are building “The Cloud” (even before that term was coined), because that’s literally the business you’re in … regardless of who you’re customer (AWS) is or not.
Is there a reason you're so intent on being a killjoy? Is there really an important point being made here? Don't worry, they do not falsely believe that they invented and built AWS.
This story is basically akin to someone who works at a restaurant saying that one day a celebrity came in and ordered a hamburger, and a photo was taken with the hamburger that ended up becoming famous, and them saying that they made that hamburger. It's just an interesting "I was a small part of something that became big" story. But thank god we have you here to make sure that that person doesn't go around telling people they built AWS.
No, I was actually really fascinated by the server and IT infrastructure in these types of operations and worked to make a career switch to programming.
I’m a full stack engineer now professionally, and work on open source code on the side.
It's a very rewarding hobby, from making the mirror (manual labor + measurements with interferometry), silvering it (a bit of chemistry), designing in CAD and building the actual usable telescope, there are a lot of moving parts to design, and steps that you can either do or delegate. I think anyone who likes manual work can find a piece of a telescope that's enjoyable to work on.
The feeling you get after a few nights of hardware debugging, when everything properly works and you get a sharp focus in a clear night, that's quite a step above any of my other hobby projects to this day (:
Plus, you can always improve it with ergonomic modifications or additions to make observing sessions smoother.
Edit : here's a pic at first light of my last one (8" f/3.52)
I designed and made a 'cheapscope' out of PVC pipe, 3d printed parts, and cheap aliexpress 76mm mirror, mounted on a camera tripod.
It works well enough for the moon etc, and, as I'm based in a developing country, many people have never seen the sky except with the naked eye, so the gasps and oohs, etc are priceless.
I had intended to document and open-source the whole thing, but was busy at the time, and the PLA prints have since completely disintegrated in the hot humidity, lol. Maybe I'll get back to it again, with PET or nylon this time.
That's very nice. All DIY efforts to make visual astronomy more accessible are more than welcome as consumer products are priced for the global market.
I've got an unfinished 8-inch mirror that I spent a month of evenings grinding... Someday I'll get around to polishing and building out a cargo-bike-collapsable structure for it.
A cool thing about DIY telescopes: You can get better results than a commercial mirror, because you can turn your time into quality at a rate which is not economically feasible for manufacturing.
That's my ultimate goal, an itinerant astronomy car to go in villages where there are no astronomy clubs. I also started teaching the few things I know about mirror making to my club and whoever asks.
I'm building public-compatible stuff now that I have my own stuff that is quite delicate to handle, after a few public nights where children grab onto a high-end eyepiece...
The 16.5" will be a very rugged scope to fulfill this purpose. I think John Dobson's approach to telescopes is the ultimate one, that is, the value of a scope is the number of people who looked through it
Instead of an eyepiece, i strongly recommend having a DSLR or other camera attached and showing the display on a nice screen. It makes it soooo much easier (although, it doesn't work great for nebulas or other faint objects). I've had a parent sort of utter "wait... we're looking at the moons... of jupiter... in real.... time?"
Telescopes are often built simply (and rightly) as functional tools or instruments, and that's great of course, but I wanted to compliment you on making a non-ugly, aesthetically pleasing telescope; a bit of craftsmanship goes a long way, looks great man.
What approximate physical location are you in? This is my dream, but right now I’m wasting away in SF. I’ve been looking for properties with a stream but they seem pretty far between.
I own 4.2 acres in the Sierras north of US-50 between Kyburz and South Lake Tahoe at 5,600ft elevation. It was not easy to find, but there is a seasonal creek that runs through it fed by snowmelt. I had to drill a well 600ft down to find water year round, there are no utilities so I had to dig out for septic, get propane storage for generator power, and I have a gravel path via an easement into an adjacent property to link to a forest service road. As remote and unconnected it was, it still fetched an amount that I am not super happy with, but I acknowledge even that price I got it for was cheap. I knew what I was getting into, specifically buying it after the major fire up there two years ago and was able to get a wide open tree-cleared area that I didn’t have to gain authorization to remove. I fully intend to build a cabin up there and then probably resell it because it’s too remote to AirBnB.
I think you should carefully consider your goals and what you want out of a location (must haves vs nice to haves and a list of dealbreakers).
There are a few things you probably take for granted. If your are considering an off grid or at least remote location, some things you should keep in mind:
- More than ten miles is a long way to get groceries, especially if primitive roads make part of the drive.
- It gets dark when you’re outside of civilization, don’t leave lit areas unless you must.
- Carry extra fuel at all times, you should also have a working, spare vehicle that you actively maintain.
- If you are settling in an area with snow, both your vehicles need to be AWD with snow tires and you should carry chains at all times when it’s season for snow.
- The spare vehicle should have a full tank of gas and spare fuel treated with an enzyme to keep it stable.
- You should have spare parts for your home and car, be comfortable with doing a lot of stuff yourself.
- Know the fastest and slower but more reliable route to the nearest hospital.
- Get a cell phone repeater from your cell company (they often even do it for free if you power it).
- Make sure your house has a power inlet so you can use a portable generator in case your permanent one fails or have a very beefy car inverter so your spare card can power your house.
- Have backup fuel for your generator.
- You should have one week of food, water, and generator fuel on reserve at all time.
- Your firewood pile should be sheltered, covered from the elements, and easy to get to from your home.
- Maintain a sat phone (one with minimal minutes is fine, this is backup comms).
And be sure to remember that shit gets or feels weird for us when we live in remote locations. You will start to see things if you let it get to you. If you plan on exploring, be prepared to come across (and avoid) carcasses, wild animals, poison oak or ivy, strange or out of place structures, people walking around who don’t answer or acknowledge you when you call out, trust your gut and fucking bolt when things are just not right even if you can’t put your finger on it.
I have hallucinated people that disappear when you try to approach them, full and partial structures that seem to dilapidate when I approach them. I’ve seen brand new cars driven out miles off the highway left with their door open as if someone just got out and walked away never to return, burnt out cars miles out in the wilderness, heard children laughing in the distance at midnight in the pitch black, heard the moaning of someone in pain but nobody to be found.
Maybe the most unsettling thing is when you walk into a specific area of the forest and, as if all the air is sucked out, it goes so quiet enough that you can hear your own pulse and rumbling of blood flowing through your ear. You feel, not hear, this low, intense hum, a sense of dread falls over you, as if you are being watched or hunted. This happened to me back in May when I ran across a set of poured, concrete stairs in a clearing as if built for a porch, but no foundation where the house should have been.
Nobody told me this lifestyle would cause me to become afraid of the dark again. I used to camp up there but now I don’t go up there unless it’s light and I can be back on the highway well before nightfall. Honestly, this experience has given me a huge appreciation for the game Don’t Starve.
I only have anecdata, but I have identified two factors: isolation and vulnerability, or rather the sudden change in how isolated or vulnerable we feel. We become accustomed to the sounds of our own neighborhood and city in general, so if you stop all these sounds and introduce new ones, in addition to literally being isolated and unable to read others’ emotions on the situation, our brains generate discomfort via anxiety and stress. The vulnerability aspect is due to the fact that we don’t know what’s out there. When we’re walking around in the darkness, our brains are determining that we are in danger and attempts to signal to us that we need to GTFO. Being in terrifying situations will heighten that response.
Is this a ChatCPT written article to sell stuff or for SEO purposes? Definitely seems like it, and actually makes me wonder about the entire parent post.
I wrote my post with my own two thumbs, thank you.
The site linked looks like one of those stupid content farms that analyzes popular crap on Reddit. The stairs in the woods thing got popular because they are out there, but the is not supernatural - people just abandon or recycle material within structures in remote places if it no longer suits their purpose. Decking and stairs are often made of pressure treated wood which does not burn or decay as quickly and if they are concrete, they most definitely will not decay in a hurry. So once the combustible tinderbox of a log cabin is consumed or is recycled (via dismantling) all that is left is often just stairs.
Yea, I see more and more of these content farms when I'm googling various topics as well, which is actually making using the internet to learn how to do things less productive.
Your post overall was not written in that manner, but the tangent into the stairs thing was unexpected and borderline supernatural, actually would have been an interesting segue into a ghost story.
@influx post is so low effort it's hard to tell if they're the one profiting from the content farm or just posted up the first result he found on a quick google search.
I do not at the moment, but I agree that I need to start writing about my off-grid and battery-powered (mis-)adventures. Most of my battery management is bespoke hardware and I’d love to share it.
I also do not want to highlight the creepy side of remote living because that just attracts the wrong type of attention.
Yes, it would be very interesting. For people like myself, living in parts of Europe where there’s no real off-grid wilderness, it’s fascinating to hear about. Particularly when it’s not paired with a) prepper/conspiracy mentalities or b) gear-obsessed content.
Yeah, I’m the western US which is very sparsely populated by comparison to the eastern half of the US[0] or Europe in general. Waaaay too much of off grid information is focused on preppers and I’ve even been accused of being one. Can’t someone just want a cabin to visit for leisure?
I never appreciated how easy it is for me to find very remote wilderness until I started traveling to other places both in and outside the US. I can take a major US highway over Donner pass, a place that 175 years ago, people were eating each other because they got stuck without food. Now, CalTrans has a fleet of equipment and staff that work 24/7 to keep the road clear 99.9% of the time.
> Waaaay too much of off grid information is focused on preppers and I’ve even been accused of being one.
I feel your pain, every US "prepper" related material I've read or watched leaves me with a hanging "and ...?" or "so... ?"
I'm 60, my father, still alive and splitting wood, was born in 1935 - we're both from the remote corners of western australia, a state 3x the size of Texas with a 2023 population of ~ 2 million most of whom are concentrated about the single large city.
In the mid 1980s a group of people came in from the western desert and were suprised to find that Europeans had landed in Australia and over run the continent ... it was the first they'd heard of such a thing although they had wondered about the contrails across the sky.
Are you milling with an alaskan mill or are you using a horizontal band saw? I'd really love to have space and money just keep a wood-mizer around. Do you have a kiln as well?
Lol... I should have got that.... I do not have a wood drying kiln, but I have a small shelter where I stack boards over the winter. It ends up bone dry by the next year when I am ready to use it.
I have thousands of board feet waiting to be milled, so I plan on building a larger lumber drying "shed" at some point with some of the resulting boards.
I made a person seven years ago. They started out pretty useless, just eating and pooping and crying a lot. But now they can walk, talk, think, read, write, act, sing, and love.
I agree, the scale problems seem to outweigh the scale economies at N=2. At some point you get positive network effects where the older ones contribute to the care of the younger ones, but so far we mainly observe a lot of resource contention with frequent livelock exceptions requiring intervention by the parent processes.
At N=4, I have observed substantial reduction in required average per unit parental engagement. However, we found that parental unit genetics increased the probability of encountering a different instruction set (autism), which involves recompiling a large fraction of the standard library for one unit.
Built a two-seat, single engine airplane. Took 6.5 years to build and I've been flying it for close to a year now. The U.S. and several other countries have fairly liberal rules allowing for home-built aircraft, so there are actually tens of thousands of home-built planes flying around today. Yes, it's built from a kit (mostly sheet aluminum and rivets, some fiberglass) but I'm OK with calling it cool.
Also, support the EAA! They're basically the EFF/FSF of aviation, AOPA/NBAA/ALPA etc are all shitty industry groups that want to make aviation as inaccessible to the ordinary person as possible.
It’s even worse, general and experimental aviation is hated by the FAA itself. They would rather only commercial aircraft exist so they don’t have to deal with the silly people with their toy planes. The fact that all classes of medical certificates have mostly the same requirements for both general aviation and airline transport pilots (no prescriptions outside of the dozen they are okay with, among other things) shows that the FAA sees genav as just a pathway to get to ATP. I guess the 1500 hour rule indirectly keeps hobbyist pilots flying.
Do you have a link to where you got the kit? And how much do you estimate you spend in total to get to fly your own plane (including getting a license). (Srry if thats rude to ask)
Sure. There are a lot of kit manufacturers out there, offering a wide range of aircraft styles and purposes from back-country to aerobatic to long-range cruise airplanes and more. Materials can include aluminum, fiberglass, wood-and-fabric, and others. The EAA[1] has a lot of information about the various kits. I went with a Vans[2] which are very popular kits with a huge volunteer support/help community online and offline. They list kit prices on their web site, but they are exclusive of engine, propeller and avionics, which can be significant. Fortunately, since it takes a looong time to build, these costs can be spread out over many years to make it manageable. I got my pilot certificate 20 years ago when it wasn't as expensive as today. Not sure how much a PPL will run you these days.
It depends greatly on where you are. I LOVE airplanes and being in the air, and everything at all to do with aviation, so I once entertained the idea of getting a PPL. I called around to the various local airports and clubs to get an idea of what was involved. Although I could technically afford it, the price tag was eye-wateringly expensive for what would realistically amount to an expensive and non-trivially dangerous hobby for me. I expect those who are able to do it on the cheap already have a network in place in order to get steep discounts on their instructor's hours, or something to that effect.
* Also, I eventually decided that I don't have what it takes to be a competent pilot anyway. I'm sure I could handle rural VFR just fine but my brain is not good at holding and computing multiple values. Anything that requires me to juggle a dozen or more numbers in my brain in order to avoid dying is a no-go unfortunately.) I took up an interest in motorcycles instead.
Can you expand on this? I am a motorcyclist with an interest in flying and based on my idea of what flying involves (at least in not very busy areas) it seems a lot more chill and probably less dangerous than motorcycling. Multiple people try to kill me every day the mental load involved in managing all the hazards is quite high.
When riding, the only number you _really_ need to pay attention to constantly is your speed, and that's just to avoid getting pulled over. Everything else can be operated by feel, sound, and judgement. Energy management is easy: if you want to go fast, twist the throttle. If you need to slow down, apply the brakes. You also have to learn to ride defensively against other road users but that comes down to vigilance, general situational awareness, and experience. There's no numbers or math involved per se.
Flying VFR is probably similar in a lot of ways. You have lots of visual references to go by and with experience can tell if you're on the right heading, too high, too low, too fast, etc. This is why I haven't ruled out buying an ultralight some day when I'm retired.
But in lots of cases, and especially when flying IFR, you have to juggle a lot of things all at once just to keep from dying. A GA aircraft might have dozen gauges and those are only the most immediately important things to worry about. Altitude, heading, air speed, engine RPMs, hours of fuel, ATC frequencies, etc. Many flight parameters have a current value, but most also have safe minimum and safe maximum values which change dramatically depending on the phase of flight.
Lots of people have the ability to mentally manage all the parameters of the airplane itself and its position in the sky, and also be able to do it consistently and safely. But my brain just doesn't work like that. I have trouble holding one or two numbers in my head for more than a minute. It would be incredibly stressful if I had to hold dozens of them in my head at once and my LIFE depended on not forgetting or accidentally swapping them around. I know my limits and for better or worse, this is one of them.
It's more arbitrary data than riding, mostly while communicating with ATC. You have to remember various details spoken to you moments ago and process it all while managing the plane. It is obviously very doable, many do it.
It depends on where you ride but the mortality of private pilots is comparable to riding when messuring risk vs hours of exposure. I don't have time to fetch the data right now but I recall that from when I was looking into getting a bike.
The risks are very different, pilots die from lack of preparedness, riders are at the whim of traffic and their moment to moment risk taking behavior.
Once you get past your checkride there is virtually zero math involved in flying. I regularly fly in and around the SF Bay Area and I don’t do a single math problem when flying. I would not let that fear stop
You. Flying is too awesome.
If anyone is thinking about getting the PPL, the cheapest way is also the fastest way - take a month off work and just go to a school that specializes in it.
The easiest way is the slowest way, two hours a weekend or so over a year or so, you'll end up with many more flight hours before your license, but arguably more prepared.
This may or may not fit into the OP's intention but some of my favorite physical achievements are repairs that might be impressive for a random suburban dad :)
1. Two years ago our basement flooded a week after we bought the house. I ended up tearing out the now-saturated carpet and put in vinyl plank flooring. Mainly straight forward but requires planning and at some points tricky sawing. It's cool when people come in and un-prompted say "wow that's a great floor you have here"
2. Maybe 4 years ago, I completely disassembled and repaired a through-wall heating and cooling unit in our NYC apartment because it wasn't producing a lot of air. Previously, repairmen came out and said it was working as normal and just wasn't meant to produce more air. This taught me a lot about electronics, HVAC, testing, and shopping at vendor-supply stores. People are shocked that a civilian was able to do this repair.
EDIT: I'll add one more:
3. Replacing the screen on my Pixel 6 Pro. It fell out of my pocket while biking, and although it wouldn't have been the end of the world to just get a replacement, I thought it would be fun to try and repair. I normally stayed away from stuff like that because I didn't want to deal with removing/applying adhesives but it was really not a big dea.
Similarly, I have felt huge satisfaction with DIY repairs. Re-plumbing a couple sinks and replacing a garbage disposal and/or adding a dishwasher is not hard to do, the building codes aren't terribly overbearing and its like Lego connecting things together with immediate feedback loop when testing for leaks (modern PVC plumbing, not older copper/metal).
When you own a home and have the time, there are some tasks that will save you a bunch because they are labor intensive but material costs are low. Also if you live in an area where people hire everything out you'll find shortages of contractors and high prices.
Yeah, that's the spot I'm in right now... contract rates where I live went through the roof over the pandemic and never came back down.
Aside: I wish I could smack whoever did the wiring in my home. They saved a few dollars on a breaker, but if I run my AVR/TV + Microwave (in adjacent kitchen) and the lights are on in the summer, it blows the breaker. And there's a dozen spaces on the box still available even.
Have, three times... once with a different 15A, and on the second 20A. There might be something else wrong in the wiring, and may have to rip up at least the cabinets and drywall on the one wall and the ceiling in the kitchen at the least to get to it. There was a remodel about 10 years ago (about 5 years before I bought it), and that may have been it, though could be original. Been wanting to replace the kitchen lighting anyway.
Huge pet peeve of mine, this militaristic way of thinking. Even police are civilians -- every one is, except for actual soldiers. Cops love to refer to everyone else as "civilians" but they're just hired security with extra perks.
A dictionary reflects current usage. It does not reflect correct usage.
Police in the US are not governed by the UCMJ and have no affirmative obligations in the way military do. They are also civilians under the Geneva convention.
A professional police force only goes back about 200 years.
What was your AC repair? Did it involve dealing with the refrigerant system or just other electronic components? If so, I'd be shocked too -- AFAIK most commonly-used refrigerant compounds are not generally available to civilians because of the environmental damage caused by their irresponsible discharge.
> AFAIK most commonly-used refrigerant compounds are not generally available to civilians because of the environmental damage caused by their irresponsible discharge.
I don't know if the EPA test has changed in the decade since I took it, but it was very easy for me to get the cert needed to buy refrigerants myself. I found an A/C supply store that administered the tests, found a study guide on the internet, ready the study guide in half an hour, took the test. Now apparently you can do the test online whereas I had to go to the store.
No, not refrigerant. I think I ruled that out pretty quickly because one of the symptoms was icing on the evaporator side - so I figured the compressor side was producing enough cool.
At the end of the day the problem was the evaporator blower motor. It was insidious because it certainly worked and moved air around, but it was something like a 3 speed motor and the 2nd speed was failing and not moving enough air around, hence the icing and not producing enough air, something like that.
That's cool.. I replaced a fireplace surround, flattened the wall, wired in for speaker passthrough and electronics to mount a tv, the surround didn't allow room for a tv mount and now power, etc.
Also enclosed a garage at a prior house, turning it into an office. Sub-breaker, lighting, etc.
Haven't been able to do much at my current house since the fireplace as my physical health is less than stellar. On the small repairs, I just can't handle those, I had trouble reading small text and not much dexterity before the tiny ribbon cables in modern laptops and phones. If it's beyond a sodimm or m2 slot, I'm out.
Were vendors willing to work with you directly or was there some process to building a relationship with them? And what were some of the challenges you ran into while doing the replacement?
I somehow found a store in Queens that sold AC parts to repairmen ~ no idea how I originally found it.
I remember Citi-biking over the 59th street bridge to pick up stuff ~ first capacitors, eventually a motor - which is what ended up being the real issue.
The store got a kick out of working w me at first but I think they eventually found it annoying. I suspect repair-folks don't do a lot of returns. EG - if they buy a capacitor and then it's not what was wrong, they end up keeping it for another job whereas I retired it. Also, when I bought the motor that was the manufacturer specified replacement, it wasn't a perfect match for some other part of the unit. I had to bike back to the store and the guy gave me some bushings (which solved the issue) but real repair people would probably know that the shaft thickness changed on that motor and carry some bushings around anyway.
So yeah they were fine to do business with me but they normally deal with large-size orders probably, so my stuff was "cute" but most certainly not a priority for them.
I know, I am way late to the game on this one. But WTF. I made a Scanning Tunneling Microscope, in 2001, spent an entire year doing it. Coolest F-ing thing I ever did. No money. No reason other than my curiosity. I learned Sooooooooooo much doing it. I used to have a github on it but no one looked at it but, it was one of those things. It taught me something about patience, and a ton about so many things, controllers, ADC, DAC, DSP. It. was a fun lark. I have a PHD in EE from the 90's but I felt like I learned more from that project than anything else I have ever done. I know this is a post to the wind at this point. I don't care.
I built a 35 foot steel boat that I ended up living on for years, sailing on the North Sea, and more recently throwing a bunch of great parties with. (If you're in the Netherlands and want to come to one, my email's in my profile!)
It took about 5 years to build (on and off) and I say "built" but I actually bought a large part of the hull of the boat to start; however, somewhere around 90% of the boat by mass is stuff that I've made entirely myself or worked on significantly, so I'd still say I built it.
Because the title specifically asked for cool: I've built a lot of other serious physical things in my life but the boat somehow has some serious cool power. When I started throwing parties on it I expected a somewhat modest reception - it's a medium sized steel boat, not a superyacht - but for some reason it's attracted the coolest other people: composers, neuroscientists, filmmakers, martial artists, costume designers, makeup artists for movies, a super unique crowd. Obviously you can't fit that many people on a boat the size of mine, so we're talking 10-25 people per party, but each one is unique and some nights when the music, liquor and conversations are flowing I feel as if I have constructed the International Prototype of the Cool.
Anyway, if anyone wants to come see it in person, my final boat party of the summer is this Friday-Saturday the 11th-12th in Rotterdam, my email's in my bio :)
Party photos are only for the guests, although with five thousand addressable LEDs, over 100 lasers, multiple underwater lights, moving programmable head lights, a fog machine and more it looks amazing, certainly wish I could share!
I'm a sucker for old games and good pixel art and I've built a pixel art frame powered by a LED matrix. It is not the most impressive thing I've built, but it is the one that brings me the most joy.
Disclaimer - This was my first ever python project and I just made it work. ATM a friend of mine is helping me refactor everything. Repo also needs images of a new wooden frame I made.
I'm an EE by trade, and my work has shipped in numerous consumer products. I was lead hardware designer for Sonos Amp, Sonos Port, and a few of the IKEA/Sonos collaboration products.
I've since moved on from that job, but it's a very cool resume item. It's also a pretty cool shameless self promotion thing to point out when I need to.
Was asked by an executive why I should run a hardware development effort at my current company and my pitch was: "Because I've designed and shipped more circuit boards than everyone else at this 500 person company combined. You probably own some of them." Turns out that said executive just got his new house wired with Sonos Amps.
Since I mostly work from home these days, I've done some fun little projects around radio just to prove that I can. I made a little AM receiver with 74xx series logic inspired by a post I saw on HN, and now I'm working on a digitally tuned FM receiver with a Si5351 as LO and an STM32 as controller/HMI.
Similar story in manufacturing automation, with a lot of automotive especially.
It's fun to drive around and see F150 doors and Subaru seats and Toyota mirrors and BMW center consoles and on and on that I assembled.
Or rather, that machines running code I wrote assembled a small part of. It's definitely a different feeling of satisfaction when a machine I was a critical part of for a few weeks years ago churns out value while I sleep versus something I made with my hands and hand tools which would take an identical amount of time to repeat.
I made an instructable on how to hack the sonos ikea speaker to get a line level aux out. What do you think of it? Imo its probably wrong electrically speaking summing the low and high frequency lines, but it sounds pretty good after truplay tuning.
What do you think about the longevity of these Sonos products? I got sucked into the ecosystem via IKEA/Sonos collab and now added one to my TV setup.
The ecosystem is nice _currently_ but do you think the hardware+software will be useable in 5,10,15 years from now? Do you think it could be liberated software wise. Thinking about this because I am contemplating moving my vinyl setup to Sonos as well.
The hardware will absolutely still be useable. The hardware quality bar is very very high.
Our app usability sucked then (and still does now), but plenty of our products met and exceeded ten or fifteen year lifetimes.
One of the biggest issues we faced when I was there was trying to support devices shipped in 2002 that didn't have enough RAM to run features being shipped in 2016! Newer products shouldn't have that issue. They ship with tooooons of RAM for fear of that situation popping up again.
I have ten year old Sonos gear that still works. The feature I wish the speakers had most? A line in jack so I could use them with something other than apps. That is a kind of future proofing all powered speakers should have.
The Sonos product team had a completely unexplainable aversion to line in jacks, to the point where you almost weren't even allowed to discuss it.
I suspect it was a lot of fairly self-interested resume padding for some PM resumes. Nobody there was going to make their next career move as "innovators" shipping a technology that'd been perfected for fortyish years before them.
Probably, but I don't have the time, interest, or access to the PCB files any more.
I think you'd be out of luck in most cases anyway, as we almost always used I2S as our audio interface of choice. If we didn't have a use for the RX line (i.e. The audio input line) of the I2S interface, it generally wasn't broken out of the SoC fanout.
What's more: we didn't generally enable driver support for I2S receive in products that didn't use it. There simply isn't a use for it.
Furthermore, you probably wouldn't be able to modify the app stack to use that data if you somehow did figure out all the needed kernel mods. Sonos deployed Secure Boot and signed app updates starting in 2013, because they realized they were potentially selling a botnet for hire if they didn't have a good way to secure their players.
I'd settle for a line-in straight into the power amp. No integration of any kind into the existing Sonos ecosystem. Make them dumb - because the speakers do sound great for their size.
I recently added a new Sonos Beam to my TV and used Sonos One speakers from 2017 to serve as my rears. While Sonos has done some weird stuff with old product retirement in the past, being able to pair 6 year old speakers with current hardware was delightful and restored my faith in Sonos product longevity.
I've also been part of (or lead) the design teams of several LVADS (one of which is in the Smithsonian), a dialysis machine (Outset), a surgical navigation camera for NuVasive, and most recently a couple soft tissue surgical robotics systems. First, Ottava from Auris/Verb/J&J, and most recently the Maestro from Moon Surgical:
https://www.moonsurgical.com/
I can't decide which is coolest, Oregon Heart or Moon Surgical. What do you think?
P.S. I also completely re-plumbed our old home in Golden, CO both fresh and black. Including personally jackhammering up the basement floor, digging a 5ft trench across the whole basement and replaced the sewer pipe and roughing in a full bath I the basement before covering it all back up.
That article seems really interesting, but it's over five years old. Are there any updates on the artificial heart? Did it ever make it to human trials?
They did several successful animal trials which were very promising and demonstrated the thing really worked well.
Unfortunately the CEO was a career academia finance guy and this was his first startup. He wasn't good with their money, and spent it all, much on "side projects" and other stuff not directly related to the development and financing of the pump, before he was able to raise more. The project was also heavily associated with and funded in part by OHSU's Heart Transplant program which has had its own problems over the last few years:
https://www.oregonlive.com/health/2019/07/deaths-at-ohsu-hea...
The architect of it, the guy who just thought it up, is brilliant. I chose to work at OregonHeart to have the opportunity to work with, and learn from him. Dr Richard Wampler is wonderful, one of those old school American treasures. When he was a kid he took apart his families car engine because he was curious, his mom got upset and he put it all back together before his dad got home.
He first envisioned, architected and got going:
What eventually became the HeartWare HVAD, way before it was heartwarming (it was Kriton). Some crazy business history here if you want to read more, it's like a soap opera.
Thoratec HM II (he helped but didnt architect it I believe)
Oregon Heart
VADovations
And the first one, the Hemopump which J&J bought and threw in the trash, only to buy what is essentially the same device 30 years later in their acquisition of Abiomed and their impella devices.
There is so much fascinating history in this field. They even made a totally mechanical (no electronics whatsoever) artificial heart using the thermal decay of plutonium to power a sterling engine.
P.P.S. I have more info about these, and all the other projects I've worked on on my website at
www.iancollmceachern.com
When I was in school back home in India, my mom wouldn't buy a ping pong paddle for me to play with friends since it was expensive. So, I decided to cut down old notebook cardboard covers and I made one for myself by glueing 7-8 hard cardboard notebook covers.
I know, sounds lame but this is all I can remember. :D
I bought a house that was sold as "uninhabitable" in Amsterdam, pulled out all the interior walls, applied insulation, then taught my self plumbing and did the plumbing, redid the wiring, installed the gas heater, laid radiant heating. I built new interior walls and did all the interior finishing except for plastering downstairs and pouring cement over the radiant heating, which I had professionals do. Coolest single thing I built in the house is probably the kitchen peninsula which I somehow aced the oak waterfall on (thanks to Festool I guess).
Sounds kind of cool listed out like that but it was a shit ton of work, it's still not fully done and as I was an absolute beginner with limited time a lot of things are half-assed or have to be redone at some point. I quit my job shortly after buying the house (for unrelated reasons) and took a year long sabbatical but it still wasn't long enough enough time. People warning you about renovations like this should be taken seriously.
If instead of buying this house cheap and doing this renovation, I probably could've just taken a job at a bank or some big tech co in Amsterdam and afforded the same or even nicer a year or two later. Though, with the housing market being as it is the timing was super favourable for me financially. It's also kind of neat to live in a turn of the century house with all sorts of modern amenities like radiant heating, thick insulation and HRE balanced ventilation.
If I was an absolute beginner (which I am) I would be definitely very wary to do by myself the electrical wiring or the gas connections... while half-assing the rest can only look bad, those can kill you and your loved ones (neighbors need not apply).
I had the gas heater checked by a professional who agreed to do the yearly maintenance.
The electrical wiring you shouldn't do if you're not serious about electrical safety, and not reverent to the industry standards. I read the Dutch standards for electrical wiring, but it's actually hard to do it wrong if you have a small house and no complications like solar panels because building stores don't even sell wrong materials.
I agree with the other person, the plumbing was definitely more error prone. Who knew that PVC glue has a (very) limited shelf life after opening?
So the core standard is called NEN1010 and it costs money to get it. The way I got it is they had just built an app for reading the standards and they were offering a trial of the app. So I got the trial, dumped the entire NEN1010 and some accompanying docs and read them at my leisure.
I don't think I've seen stranded wire at the Hornbach. Of course you could do it wrong if you buy your wire in entirely the wrong section, and don't even bother to read the instructions of the wago connectors. I meant it's hard to do it wrong if you're trying to do it right. Hopefully that makes sense :p
If you still have it & don't mind sharing my email's in my profile... :-)
> I meant it's hard to do it wrong if you're trying to do it right[...]
This example came to mind because a friend of mine (we're also both in Amsterdam) got this specific thing wrong, then asked me and a couple of others about melted connectors.
I agree it's generally quite easy, and yeah the "installation" section tends to be separate from where you buy bulk extension cables.
But there's a bunch of small things like that, another common one (which even professional electricians seem to screw up half the time) is reversing which side of the socket live and neutral are on.
For plumbing probably the most common pitfall is knowing which types of connectors should or should not get teflon tape applied.
> reversing which side of the socket live and neutral are on.
What do you mean? Like mid way through an install? As far as I'm aware there's no rules about which side the phase should be on, and googling only shows some electricians prefer to have phase on the left side because it's easy to remember and consistency helps with debugging.
As far as I know a Schuko socket can have live on either the left or right (looking at it), but there's a strong convention for having it on the right.
Partly this is compatibility between
CEE 7/3 and 7/5 and 7/7[1], The Netherlands almost universally using the first.
I have a socket tester designed for Schuko (similar to, but not exactly [2]), it (and AFAICT this is universal among them) enforces "live on the right".
What is definitely standardized us that the wires in your wall should be brown=live and blue=neutral (in the UK and European continent, other places may differ).
Once you start mixing up neutral and live in sockets it'll often lead to a mixup in the wall wiring, as sockets are often used as a starting point to extend wiring. I partially rewired my house to fix that issue, left by an electrician.
As an extra data point, e.g. Jung sells pre-wired sockets which assume that you follow this convention[3]. If you don't you'll end up with reversed wires in your wall, i. e. wires mixed up by color, not just the socket itself violating some convention of live=right.
The photo in [3] is low resolution, so you can't see the tiny "Jung" logo on the inner part of the socket, which indicates which side is up.
They're all pretty safe if you read up on them (and how to test them afterwards) - often, the person you hire ends up having about a week's more training anyway.
But if you're uncertain, find a trusted friend or hire someone.
Plumbing waste water is the one that skeeves me out.
There was a comment here claiming that doing your own wiring is illegal in the Netherlands, but it was (rightly) deleted. It is completely legal to do.
I do my own wiring too; it's not hard to do this safely in most of Europe.
I knew a very smart guy with an attitude like that. He decided to run the electric wiring for an artist's co-op he made out of surplus shipping containers. When the city inspectors eventually popped by for a surprise visit, it was so far from code compliant that they pulled his electric meter on the spot.
Being very smart, he was sure he was in the right, so I hear he fought with the city for years over it, in the meantime layering on his home-grown solar and biomass gasification generator. I'm not sure if he ever got back in compliance.
I would encourage anybody going this route to have early discussions with a licensed electrician. A lot of code compliance stuff is non-obvious. It's what you get when you start with smart people and then add a hundred years of experience.
Hopefully you are reading and learning from the same place licensed electricians are learning from. Sounds like this guy didn't go to the right sources.
Which, I should add, is true of most professions, including software development. If a non-developer jumped in to make an app, it would be miraculous if the app and the code base were up to the standards of a seasoned app developer.
as homeowner to several places certified to have been habitable and built by professionals, let me tell you, that shark fin headed toward you is plumbing.
>> I probably could've just taken a job at a bank or some big tech co in Amsterdam and afforded the same or even nicer a year or two later.
Yes, but now you know how to fully renovate a previously-deemed-uninhabitable house.
Many, especially people that make large $ in tech may disagree, but I find this to be extremely valuable knowledge & experience. Tangent, but I experience second hand humiliation & embarrassment when I see an adult paying hundreds into thousands of dollars for something that can be fixed in well under an hour with basic tools.
I made a clock based on an IV-18 vacuum florescent display tube. In the process I learned CAD, CNC, aluminum anodizing, metal turning, SMT soldering, laser cutting, box making, power supply design, and a dozen other skills I use every day today.
I built a total of five of them. I sent one to the person who designed the enclosure, one to my brother, one to a friend, one to eBay for sale (which ended up in Germany), and kept one for myself. It still sits on my desk ticking along quite happily. I've changed the backup battery once in 14 years and have made little tweaks to the firmware over the years.
My uncle had ALS and was slowly losing his ability to speak. I visited and in order to hear him, we had to gather around him closely. It was very fatiguing for him to project his voice.
I went to a few audio stores and jerryrigged a portable mic-speaker setup that could attach to his wheelchair. No software, just the right series of devices and adapters. It worked well and provided a huge relief for him and our family. Nothing impressive technically, but definitely the physical thing I'm most proud of making.
Thank you for that link. What a funny and engaging writer.
“My statue will be made of guano, highly compressed and polished to resemble marble, commemorating the victory of Bad Taste over Common Sense and Decency.”
Sounds like another great project for this thread!
I sewed a pair of KKK hoods and placed them atop the bronze heads of a local Confederate monument. Less than a year later that statue and a few more like it were removed due to the “safety concern” created by myself and a ton of other activists. I like to the “the coolest physical thing I’ve made” is helping make those goddamned statues disappear.
You guessed it, boats. I have built a stitch and glue (plywood) sea kayak[0], an Aleutian-style skin-on-frame sea kayak[1], and a skin-on-frame canoe[2]. All were fairly approachable and straightforward projects (I built the first two with basically some hand tools, a drill and a jig saw, on my deck, but a table saw is highly recommended for skin on frame). Tons of fun and the feeling of being a couple miles offshore or cruising down rapids in a boat you built yourself is awesome.
Boatbuilding is fantastic. I've done a couple small ones (canoe, kayak), and am preparing to do a sailing dinghy. All stitch-and-glue. I'd really like to do an old-school one of Pete Culler's designs with plank on frame.
In a world full of beeping and booping, working with wood, even plywood, is a welcome relief.
Another would be boatbuilder checking in. I started a rather ambitious project during covid to build a 21 ft sailing dory. It's my first boat but I insisted on going with traditional solid timbers and rivets and all that. I'm just about to rivet the last plank and still have the gunwales, rigging, rudder, centreboard etc. to do. It's been an amazing process though and I already can't wait to begin another build.
I also built a kayak (in the 70s)! I forget the details, but I think the plans were obtained by a friend of mine, and we each built our own boats. There was a wooden frame with a canvas skin. We used airplane dope to make the skin waterproof. It lasted around 2 years of fairly steady use in the nearby American River, with no maintenance whatsoever.
Very cool! I've been wanting to build either a Cape Falcon canoe or F1 kayak for a few years (and might get the chance -- read, "have the space to" -- soon). If you see this & can elaborate, how did the Cape Falcon build process compare to the stitch and glue CLC and to the non-Cape Falcon skin-on-frame?
Also, do you find yourself using one or the other of the boats more or less?
Either way/no matter what, fun to see this answer on HN! Thanks!
The Cape Falcon plans are far more detailed so there is a lot less figuring out stuff by yourself, relative to getting written plans. It's definitely a much more efficient process and there is probably a lot less variance in the result. I winged it on my Aleutian kayak a lot with mixed results (I gave it a lot of rocker and some other whitewater-inspired geometry). Of the kayaks, I prefer the Aleutian skin on frame although it was quite painful before I got the seat dialed in, and sometimes I can't roll it very well (I'm an expert whitewater boater and have a very solid roll), and its top speed is low. But it is very light, maneuverable, quiet (waves hitting it don't make much sound) and the peaked deck sheds water so it doesn't spray your face when you are punching through waves in the surf. The F1 is probably best of both worlds.
The Cape Falcon canoe that I built deviates a bit from the design pattern because I wanted a wide and flat bottom with harder edges, similar to a lot of modern Royalex tandem canoes. It's a 16' tandem I think, and even though it is pretty wide, it is still less stable than most canoes. However it is fast and extremely maneuverable in Class III.
Skin on frame is also awesome because when you are loading or unloading a 17' boat in a crowded beach parking lot and smack the bow into the car next to yours, it doesn't do any damage to either car or boat, or so I hear.
Stitch and glue is straightforward but the woodworking part goes fast and then it's just a ton of fiberglass work, i.e. cycles of epoxy and sanding, which is not that enjoyable for its own sake. On the other hand, one of the great parts of skin on frame construction is that other than a short amount of time ripping the ribs on a table saw, the rest is basically quiet and without harsh chemicals, so you don't need earmuffs or a respirator and can listen to music and have a snack/drink.
Stitch and glue will last forever if you protect it from UV, however skin on frame will most likely need to be reskinned in 5-10 years or so.
IIRC, a credit card magstripe can be read with a regular cassette tape head. Which were, if not quite ubiquitous yet, common enough in the late 80's/early 90's. Converting the analog pulses to the card's 16-digit (or whatever) number was almost certainly done with discrete logic at first.
I'm not sure what OP means about creating the "original" credit card reader, unless he was working for one the credit card companies rolling out the technology. (Doesn't make any sense to me that they would put magstripes on their cards without selling the readers to merchants too.)
Original as in first one to put magstrip reader on the gas pump on Florin Road, Sacramento, California 1981.
Philips started making compact tape recorder heads in 1963.
Magstrip on credit card has been around since 1969 (American Express) and on bank ATM card since 1971. I got my First Interstate ATM card in 1977 and got to hacking then.
Also, we sold accompanied magnetic cards then as well.
Some of us remember the good ol’ reel-to-reel audio tape from Sony, ones with BIG capstan pinch rollers and tiny read multi-head.
That’s the primary set of part for this card reader as it came from the AKAI M-7 reel-to-reel tape deck that my dad vet sent from Thailand (that I ripped apart).
The rest is machining the new box to hold together the mechanicals and gears. It was big, something like 13”x8”x18”.
Then came the hacking part, which included plenty of social engineering to obtain its data format and then garage-based pattern construction of data bits.
Then came an Intel MCS-48 (8048) …. old, old, but big ICs approach with ADC capability.
Featured it at a Pacific Oil and Gas Conference booth, sold that day in its entirety,
After doing the vanlife thing for a few years and rewiring the auxiliary battery system in my rig a couple of times I decided to scratch an itch and created a PCB with Wago connectors to greatly simplify the process and eliminate as many crimped ring connections as possible. Nearly everything for a small 12V auxiliary system plugs directly in on the PCB: DC-DC charger, start battery, aux battery and all accessories.
Now that I've scratched the itch I've found that there's a bit of a market for a product like this so I have started a side business to start selling them:
Feedback so far has been enormously positive. They're not a great fit if you have a ton of equipment or high-current devices but for smaller setups in vans, 4wd vehicles, off-road trailers, etc it really simplifies the installation process.
There's a near limitless number of things of this nature to be designed and built, running the gammut from little gizmos to electrical distribution boards like you've designed. I've had ideas for an in-vehicle weather station (internal/external temperature and humidity), a music system hand-off switch, and a variety of other little things that somebody building their own overland rig might want.
Speaking as part of your likely market, I'm really not surprised that there is a market. The mainstream RV market seems to be most focused on the kind of person who wants to run their generator every day so they can watch satellite HBO on their big screen TV in a KOA campground every night. The interior design is locked into what a person retiring right now wanted their very first kitchen to look like. So things like off-the-lot solar, or effective laptop connections, or modern interior design is not really a thing.
My main hesitation on starting down your road myself is that I already have a job building things like this, just not on projects of my own choosing.
Oh for sure, at least in the USA though FCC review gets pretty sticky so I'm actively avoiding selling anything for the moment that would require RF testing, etc. Unfortunately anything with a microcontroller or radio isn't going to be on my website for sale any time soon. I have to imagine most of the people in this space that are skipping testing/certification are just banking the FCC won't come after them. I support the FCC testing requirements, especially as a ham. But I wish the process wasn't quite so... expensive to be compliant. Especially when I'd rather put my money into product safety and reliability testing given the use-cases.
I've been through the process a couple of times with things that are supposed to radiate, and it was a frustrating and expensive process that I'm glad my employer paid for.
Its super annoying, and sets you up for an extra couple thousand dollar NRE per product, mandatory minimum cost to be 100% compliant. That cost is the other side of why I'm hesitant. I've got access to tens of thousands of dollars of test equipment at my employer; I don't really have those resources in my basement.
Its a shame that there doesn't appear to be much real testing to see if a device is operating on bluetooth/wifi responsibly, because it is possible to be completely compliant with relevant FCC standards, but then have such a shoddy bluetooth implementation that its still disruptive to everything around.
This is very cool. As someone interested in overlanding, is there somewhere you could point to where I could learn more? Specifically on the tech side of it. Thanks!
I got into woodworking during the pandemic, built several pieces of furniture, my favorite is a firepit table [0].
The top is made out of concrete, and the rest is wood. The propane tank fits inside so it is out of view. I did buy the piping and the grill from where the fire comes out of, but other wise all done in my basement.
Other builds include a kitchen island, a coffee table, and a live-edge standing desk. I think the next thing I want to build is outdoor seating that goes with the firepit.
For me woodworking is also produced the coolest physical things that I've made. If I had to pick one, I think I would pick the kitchen island that I made.
But I think my favorite moment came from the trim I did in the basement. We have been re-doing a lot of our basement and I did all of the trim that is in there now. There is a transition in floor from carpet to tile right near a corner. Looked kind of like this [0] Lots of angles to make everything match up and tiny cuts to finally get it to match up correctly (made more difficult because of course the wall isn't a true 90 degree angle). Turned out really well and looks seamless, but not something most people would ever notice. But one of my friends who is also an avid home DIYer was in my house saw it and said "dude, that trim is fire!". Felt good to have someone recognize the work that went into it.
This is true at all. Explosive spalling is a very real thing and you can see many examples of this online. Cracking is a minor manifestation but it can be much more violent.
(I'm assuming your first sentence is missing an "isn't")
We're talking about mortar here, not concrete. I.e. the "paste" that's put between bricks and other stone work to "glue" it together.
But of course normal bricks are also subject to spalling, but it's very rare that they'll Gail catastrophically, mostly you'll get a crack or two.
Europe's full of old brick houses that cone chimneys that were made before using specialized materials for them was mandated.
You can safely build such structures, they just require building and usage techniques that go along with them, e.g. using a double layer of brick, or gradually heating up the chimney to get the humidity out of the bricks and mortar.
I built a timber-framed 12x16 barn with a cedar shingle roof with almost no experience. Mostly I read one book and, by strange chance halfway through, an interested person (who loves timber framing) saw me working in my driveway and decided to teach me several things and aid my technique, and supervise the raising process.
Late this year I will plant 2000 tulips and daffodils as part of a rose garden I am planning, that begins in earnest next year. I hope it will look nice enough to turn some heads.
I built this same frame from the Sobon plans last summer on a lot of raw land I got with my wife. It's a supremely satisfying building method in so many ways, the simplicity, longevity, locality of materials: mine just sits on some laid stacks of fieldstone I found on the land. I also met local people with timber frame experience through the process and it has led to some great relationships within the community where we bought the land.
I'm currently sitting comfortably inside the structure which I have almost finished enclosing this summer and fitting with some of today's less traditional amenities.
Nice. I did a lenticular thing too. A couple years ago. A 4x6 inch 6 frame art thing. The printer was in Los Angeles and shortly thereafter he stopped doing business. Funny how hard it is to find a printer of such.
This one is physical and digital. I personally patented, designed, built, and deployed a novel ultrasonic inspection device that encoded position/orientation using IR (Just like motion capture in movies). Actually used it in the field at a nuclear plant. The value pitch is that is allowed for fast deployment (manual scanning), but could also record coverage ensuring nothing was missed. Fast deployment was important to avoid radiation and guaranteing coverage was important for safety. Ended up costing significantly less than automated scanning using a robotic system.
My absolute favorite was using the data to project a 3d model of the interior of the welds. Had to learn quaternions which was nearly the death of me, but I'm just glad it worked.
They still have the link apparently. The system used traditional manual scanning system with a VGA capture card on the back. I synced that with an off the shelf IR capture system and was able to record the ultrasonic scan into a video file using opencv. I would also record a USB cam at the same time as a sanity check. I could generate point clouds of data by reading the video file and the synced position data to project where the ultrasound was going and the linear response of the scanner. Was a ton of fun to develop and it was nice that I pretty much only had myself to blame when things went wrong. I also had to write the procedure for operation in case someone else had to use it.
That sounds really fascinating, could you post the patent no. or a link to more information? I bought a cheap NDT ultrasonic 'scope' to play with recently, to see if I can potentially measure specific gravity via it.
This correctly listed the parents. Hard part was linking all the systems together and keeping sync. Did it all in C++ way back when I actually programmed for work. Now I am a PM and code on the side for fun. I'm almost glad I cannot go back and see my code. It produced good data but damn was I a novice.
I built a mobile, wood-fired sauna. It's 8.5 feet wide, 12 feet long and 13.5 feet tall. It seats 6. I like to run it 180-210 °F.
Well, it was mobile until the axles ripped off on its maiden voyage. Now it's up on skids until I get the courage to throw another $4,000 at new axles (and wheels, tires and leaf springs since I have to go up to the next class).
My brothers and my dad helped me disassemble a tiny house in someone's backyard in Cambridge in June 2021 during a heat wave:
http://seekingsauna.com/building
There were quite a few gotchas, one being that once I installed the rafters I realized I had to reduce the pitch in order to be able to get under New England highway bridges (14 feet):
http://seekingsauna.com/roof-snafu
I've been meaning to write about the accident (the axles completely sheared off one side of the trailer) that happened a bit over a year ago but have been too busy enjoying the sauna and working on some other projects!
Last spring, I had my dad woodwork a large (cabinet door sized?) solid silhouette of Michigan, where I live. I then drilled holes throughout it, ran WS2811 LEDs through the holes, and coded up live temperature data to be shown as a color spectrum. It's a nice piece of wall art!
A few years ago I worked at a startup that let you send handwritten notes via an API. The machines that did this were basically 2.5 axis 3d printers, aka pen plotters which is not a new concept.
I was a software dev on one floor of a building working on the platform, and on the floor below us there was a fleet of about 100 of these machines that were producing the notes. Edit: There was a team of folks that maintained and operated these machines. They didn't write the software but without them the API would not have been able to function.
I really enjoyed interacting with these folks when I could. I got to build some QA UIs for them, and I took a lot of satisfaction out of using my knowledge of the platform to make a nice and efficient tool for them. You don't get to talk directly to your users often and it was a very enjoyable project for that reason.
Anyway, for a holiday party, I thought it would be cooler than a photo booth if we could find a way to make the robots draw the people that operated them. "Yeah sure, that would be cool good luck!"
Well, I actually made it work. With grit, determination, duct tape and jQuery I created a UI for generating vector path data from bitmap images so my "robot" could draw them. I hung out in a room and operated the photo booth all night and it was really fun. Nobody at work actually cared in a meaningful way but it was an extremely satisfying project for more than its aesthetic value.
I've figured out multi-pen workflows to do things like maps and really cool repeating pattern geometric artwork, but the project is kind of stuck because my career has been a struggle. I have my own dedicated machine / hardware to free me from the tyranny of the cloud, but turns out the "I'm gonna build it myself" path takes longer than expected. Who would have known?
I love it so much. I can't give up on it, but it really needs more attention than I can dedicate to it. If you think this is cool and you'd like to commission some artwork please get in touch I'd really like to make this happen.
Really cool! But your site could really benefit from having more examples. One image is not enough. Maybe you can link to an instagram account with examples that users share with you. I could see this being a fun activity at a wedding event.
Re: "Wedding events" Yes! But, the cloud. (see below).
One of the problems with my current workflow is its dependent on not only 1. an internet connection but 2. there is a "cloud" i have to interact with to use my off-the-shelf machine.
I have hardware for a new machine, it will need zero internet and work off the grid with nothing but 110 (maybe 12v?) power.
I haven't spent the time to "put the pieces together" so to speak. It needs a UI that allows control over the execution of the plotter artwork. Stuff that pesky "cloud" sort of does, but separates me enough from that I need to make my own version that allows for necessary control.
I think if I was given the time and space to do the deep work necessary I could get a functional MVP working in 2-3 weeks. The constraints of life mean that I can only give it 30min to 1 hour spurts, and even then those are not consistent at all.
Photographing the artwork has also been a challenge for me. I finally bought a pre-made template that I like so hopefully I can get past all the emotional hangups with my past failures and just move forward with what I have instead of trying to "perfect" it all before launch.
I built a new TV stand for myself. I grew up watching my dad, uncle and grandfather do all kinds of woodworking so it was time to dive in myself. It was a lot of work, but also very rewarding and I am really glad with how it turned out. Towards the end I kinda ran out of gas and so I ended up skimping on the legs with some premade ones. I would like to redo the legs at some point.
The most rewarding part was creating various tools out of wood to build the thing. In the same way that we build tools to make programming easier. I made a little jig so that I could cut all the upright pieces the same dimensions using a circular saw.
I've built a few things out of wood at this point, and my process is largely the same as yours... I start with an idea and a _very_ rough sketch and then just start building. I watch YouTube videos of these people who design every feature and facet in CAD before stepping foot in the workshop and I always wonder where they find the time to do that, and what they do when their plans don't match up with reality.
I built a tomato dehydrator (partially dried freezer packs from our garden, estrattu from Santa Cruz dry farmed Early Girls). We haven't opened a can of tomatoes in decades. Using four stacks of consumer dehydrator trays was a nightmare so:
A full sheet pan cart, like used in bakeries. Eight full sheet pans, lined with silpat nonstick sheets. A 1500 watt wall heater, a home brewing temperature controller, and a crawl space fan controller that looks like it belongs in a stereo stack. Build a plywood box around the whole thing. I had to swap in a less sensitive thermal cutoff to keep the heater from shutting off. Now we can process 60 lbs of tomatoes at a go.
There was a lot to figure out, no equations to help guess scale. I should really document this on a web site, the plans out there are very sketchy and wouldn't accommodate our scale.
I do a LOT of custom stuff (mechanics, woodworking, house rebuilding, electronics, ...) but this is my favorite one yet, kind of sad I'm bad at showing the stuff I make :D
If you have any idea of what kind of job I could do to make use of all these skills I would be happy to have your thoughts !
I think it would be cool if you made a "player xylophone". I love the tonal sounds of wood and have thought to do the same. Similarly a plucking piano with bass strings that you play like a piano but sounds like a bass guitar.
I made a rotary input device that provides software-defined "virtual" detents and end-stops, implemented using a BLDC gimbal motor. It can dynamically switch from completely smooth unbounded rotation, to having detents with configurable spacing and strength and "end-stops" that spring back if you try to rotate past them.
It's got a round LCD on the front of the knob (wired and supported via the hollow shaft of the motor) and uses the flex of the PCB and strain gauge sensors (in the latest revision, simply SMD resistors whose resistance changes when stretched) to detect when the knob is pressed down.
HN folks might appreciate that it communicates with host software on the computer via protobuf-encoded USB serial messages -- nanopb is awesome for embedded C protobuf support, and having the defined schema, autogenerated serialization code, and compile-time type safety is so much nicer than ArduinoJson or hand-written binary protocols!
I'd love to get it hooked up to some real software eventually (video editors or home-assistant control are my 2 main ideas), but it's really just been a fun project to tinker with and try out some new ideas and parts I've never used before.
Hah, yeah I think it may have. I've noticed an increase in comments over the last few days, which usually suggests the algo is showing it to new people again, and it got featured on the Adafruit blog this morning which probably reinforced it further, but no idea why the recent resurgence.
I like building bikes. I have four now that are all frame up builds, and I've used it to get pretty good at fixing and diagnosing issues too the point friends come to me. I've also learned to build wheels though that's very much a work in progress.
I also roast coffee. I exclusively buy green to roast for myself and friends and haven't bought roasted coffee in over a year!
I learned to sew and made a frame bag or two for my bike, and have made some shorts, pants, working on some skirts.
I keep fresh water planted aquariums and have learned to set those up. they are fun and very pretty.
I struggle with creative projects, so these types of things above - skilled, short projects, I guess - are my bread and butter. I'm learning guitar again but I'm not very musically creative either so we'll see how it goes this time.
honestly I think just getting stuff like corners and seam allowances dialed, frame bags (with minimal features) are super fun and easy. I order my tech fabric from seattlefabrics but ripstop by the roll is pretty popular too. it's worth getting a nylon swatch to see all the fabrics next to each other because of all the fabric stores I've been to, almost none have tech fabric.
if you don't have a machine, it's worth going to a store. I tried the thrift store and got one running but the feed dogs were broken. I've only ever had amazing experiences at sewing stores asking for help or guidance.
I've built a few cool things over the years. For a while I was on the Making and Science team at Google and it was my job. I helped contribute to the "physical google doodle" (where all the letters had interactive exhibits that kids could play with) and turned a shapeoko into a microscope. We used it to watch daphnia- at some point the daphnia "gave birth" and a mom who was watching said "we just saw the miracle of life!"
I built a Galton Board to demonstrate the Central Limit Theorem, I want to re-do it in all-acrylic and aluminum at some point and add an automated mechanism.
These days I build small motorized microscopes and use them to track tardigrades using an object detector. When the tardigrade moves, the detector detects the center of the tardigrade and moves it to the center of the image. This tracks tardigrades for hours at a time!
Ultimately, I'd like to make interesting nanoscale systems but the scope is as far as I've got.
For me it might be a system that's a hybrid of lighting and low-resolution video. It's installed in a food hall that turns into a night club after hours, so by day it looks like large glass and steel pendant lights, with circadian-scheduled blackbody colors (varying white temperature that follows the sunlight temp and goes deep orange-red in the evening), but after cocktail hour it kicks over into a dynamic, audio-responsive, stochastic, durational video/lighting sculpture that has lots of hidden behavior and a 'rich inner life', as I like to say.
https://hardwork.party/rosetta-hall-2019/
It was a huge labor of love and took a lot of faith from the owners of the space - faith I feel was rewarded, because it's been running for almost 3 years now and it still gets a cheer from the crowd when it kicks over into party mode.
Made this because one of my friends said she liked things with character, and I knew that a handmade soft toy wasn't "enough", and so letting it tuck its wings was that character.
2. Many ambigrams (words that when rotated upside down, read as the word). These ones are names for friends / acquaintances
I created what I think is a novel painting technique that I have now made significant iterative improvement on over the last 4 or so years. I now have a large portfolio of medium-large scale paintings using this technique.
The technique is a variation of a "fresco" which is applying watercolor to fresh plaster. This is a very old method that tends to survive long periods because it is making a material/mineral change in the composite medium in a way that embeds pigments into plaster - making it durable to degradation in ways that other methods aren't.
I take this further by blending the pigment into water and then adding lime plaster so that the plaster itself is pigmented, and then you work with the pigmented plaster much like you would work with oil on canvas. I make my own wooden frame "canvases" by hand and have had to deal with warping and cracking.
The challenges are numerous and there's nobody to follow or ask for help or advice because as far as I'm aware nobody has developed a practice for this. In many cases I've had to make my own pigment (For example I ground up Kingsford Charcoal for black pigment on "Untitled 7" which gave it more of a concrete texture)
The biggest challenge however is with pigments - not only are they hard to make and expensive to buy - but when mixing with lime plaster they get IMMEDIATELY washed out so that bright and bold colors are extremely hard to make.
In order to get the depth of pigment I want I am experimenting with soaking my unset plaster with tons of pigmented water. So far it's working!
My next set of experiments is to figure out a new frame material that will not decompose faster than the plaster. My fear is that in a 100 years the wood will have degraded and that will cause the whole thing to fall apart, so I need to figure out how to get the plaster to adhere to stone somehow.
The primary difference is that "Venetian plaster" process is specifically intended to mimic the look of marble or stone and so the method doesn't really veer too far outside of that for materials or process.
These kind of artists seem to only use quartz or other "smooth" acrylic plasters and pigments that don't have the same structure and are generally thin and temporary (less than 20 years expected age) - so not limestone the same kind of lime aggregates like tadelakt which is what I use.
I'm attempting to make something that can last 2000+ years - somewhere between an oil painting and a marble sculpture.
Very interesting idea. So if I understand it can take abuse, pieces could be ground right off and you would have a different texture but the color would remain, unlike basically anything else where it would revert to the base material color.
I’m not quite sure what you have in mind but it’s not really abusable, it just won’t deteriorate as quickly as other types of painting.
If you cut into it then you may or may not get different colors depending on where you slice. In that sense it’s not much different mechanically than oils, just with way more depth.
Dunno why nobody has said anything like this, but I make some awesome bread (baguettes, mainly) and pizza.
What's great is not only that you get to eat the results, but whether it turns out well or badly, you get to repeat it all over again--and again, and again, and again.
I was surprised to learn how easy it is to make truly delicious bread. Of course you can spend years refining your technique, but the barrier to entry is low.
I made some croissants and pains au chocolat in a class. I was expecting them to be just ok. They were not just ok. They one I had fresh out of the oven was not different by degree but different in kind from any I had had before, and I've had good viennoiserie! These were the platonic pastry all others had been reaching for and missing. I gotta try it again.
Now I'm jealous. I've been working on croissants off and on for a while--off, right now, because of the hot weather--but frankly was never happy with my results compared to a decent boulangerie. Whereas I do feel my baguettes and pizzas are both decently competitive.
It’s far from what I do now, but as an undergrad I built an automatic guitar tuner. It had a PIC32 microcontroller that read the sound waves on GPIO pins and did some cross-correlations to figure out the frequency (sort of a poor man’s FFT, but faster since it was less general). It used an FPGA to drive a stepper motor to turn the guitar pins towards the correct frequency. Code was all C and Verilog.
Theoretically, but Gibson made these and it was a real failure in the market to the point they even destroyed a lot of the stock of guitars they couldn't sell.
It might raise from the dead with a non-traditional guitar design like a headless guitar where the mass of the automatic tuners could be hidden inside the guitar body.
Electronic self-tuning machines are still a thing, its just returned to totally aftermarket. Its just too niche and really mostly useful if you use a lot of alternate tunings in a set and can't bring multiple guitars.
I built a two-story straw bale house with lime exterior stucco and clay plaster on the interior walls.
Many details in the house use reclaimed/salvaged lumber (fake box beams on the ceiling, deep window sills in every window, wood paneling, fireplace mantel, pantry shelves, etc).
I had construction skills at the start of the project due to my dad who is a contractor. But through the project I started doing some finer woodworking and ended up with some hand tool woodworking skills and was able to all the trim: recessed baseboard (bent around curves some places), door casings, window details, some custom cabinetry, etc.
My favorite thing that I've built is printer prop for a ballet piece about how horrible working with printers is. I had to gut the printer, which was a lot of fun, then figure out a way for it to make the noises we wanted when the dancers interacted with it. I was super happy with how it turned out, allowing the dancers to interact and run the printer while they were dancing.
Cradle I built with my hands for my son, and managed to finish it well before he was born. Still very proud every time I look at it. About to be used for the next one :-)
Nice work! It's gorgeous. Great job on finishing it: I think most woodworkers intend to build a cradle for their kids, and end up building them for their grandkids.
* 2-axis camera gimbal - my first fully 3d-printed design. I will try to use this for astrophotograhy target tracking when the weather permits but I haven't been able to actually field test this yet: https://photos.app.goo.gl/a7VxYy77NaH48XP56
Does a garden count? In a small, urban plot I grow grapes, tomatoes, strawberries, mint, elderberries, and carrots.
A work in progress but I'm building a modular synthesizer. I've built the power supply and have the VCO started on a strip board. Planning on adding some bits to that, making a step sequencer, and some filters.
A titanium road bike frame. UBI in Ashland OR USA had a 2 week course during which you learn to and complete a frame. You didn't need prior experience but I took a welding course in a community college beforehand.
Very cool. I wanted a custom frame for my hard to fit wife. The bike shop (dragonfly bike shop in Davis CA) offered a custom frame or I could build one myself for the same price.
I ended up taking the semester class that met twice a week for an evening. Had an overview of bike design, light overview of drafting, and used a 1:1 frame drawing on paper. Handy to be able to hold up the frame you are working on up to the paper. It was fun to go from a pile of bike tubes to a usable bike frame. The meeting of 4 tubes at the bottom bracket had a surprisingly complicated interface. I'm glad I sprung for the powder coating at some bike frame aware place, maybe Cycle Art?
- Most of the furniture and art [1] that I've made. I'm a very analytical person and physical creative outlets where I just create things that "feel good" really help me unwind... Even if those projects are pretty difficult for my often times rudimentary skills. There's a small gallery on my personal website.
- My own company [2] that makes titanium hand-blown glassware for whisky and spirits. They're made in Europe, so I don't personally craft them, but the glasses are my design and I learned how to 3D print prototypes - so "made" might vary based on your definition. Tangible things are just really cool and grounding.
Probably the last rally car I had, which I "unrolled" myself. It was a 6+ month project of working on it before and after work. The previous owner had rolled it after owning it for two decades. 1982 Dodge Omni.
It's interesting because rally involves a large rule set for safety, and you also have to make the car survive harsh conditions.
Had to do body work, replaced and rebuilt a couple engines, and redid a lot of the wiring. I did it in a rented RV parking lot. I would take the engine hoist out of storage, assemble it at the lot, and then tear down everything at the end of the day and do it again.
Did a lot of rallycrosses, rally sprints, and a couple stage rallies that it DNFd due to mechanical failures on the last stage on both events. Very frustrating, but that's rally :)
At one point it did a stage with the temp gauge pegged at 400F. The co-driver and I were standing around in start control for the next stage while it idled, and I looked down at the temp gauge (mounted bottom center console) and saw the reading and was concerned - do I shut it off? Will it start back up? This was 12hrs into the event, so I was super tired.
The answer was surprisingly yes, and we fixed the cooling system for the next stage, but it broke halfway and eventually the freeze plugs blew out and we stopped due to concerns of hot steam coming into the cabin.
It drove off the trailer the next day! Headgasket blew across every cylinder.
New head and we entered in HDT. It did okay, but then the rear suspension fell out (!) On the last stage of 1st day. We spent so much time on the front it never occurred to us to check the rear suspension mounts...
When I entered that event I asked the co-driver what he thought and then tried to close his door, but it would not latch. Had to rebuild the mechanism before tech that morning. Foreshadowing at its best.
A modular synthesizer! I designed the case in CAD, put it online for free, and it got kinda popular in the DIY synth community. Some companies are making it.
I built all modules from scratch with my own circuit designs too. Mostly novel designs, especially in oscillators and filters. A lot of JFETs being used to control voltages, amplitudes, etc. It was unstable and non-linear but had its charm :)
I made a replica of the… device that a popular video game called Counter Strike uses in game[1]
I designed and 3D printed everything myself including the circuit board, and overall it was a really fun project to work on. There were some areas I could have been more accurate to what the in game model looks like but maybe in a version 2.
It’s a cool thing that sits on my desk and does not leave the house.
I once built a “solar chime” using broken solar panel pieces, a microcontroller, battery, wind chime, motor and two magnets.
The idea was simple: when the sun comes up, chime.
It would charge up the battery during the day, lose current over night, and when current came back in the morning it would spin up a magnet using the motor (hidden under a platform) which would then cause the chime to activate (after attaching a magnet to the central chime string).
The whole thing resembled a flower in a pot, with a wind chime hanging off it.
After I finished, a guy came up to ask what it was. He and I were both a bit delirious as it was 6 or 7am after a long night of hacking. I demoed the solar chime and he exclaimed: “wow, it’s like analog to digital to analog!”
2. I'm somewhat of a perfectionist-closeted-as-a-realist-for-money kind of person, so physical things that I make/do never scratch that "must be perfect" itch.
...I almost never make anything physical (other than food? Is that cheating?). However!
First tiny backstory: Around 5 years ago I had a Clevo shitbox laptop for gaming (all I could afford then). It was loud and overheated (obviously). It was back in the "desktop replacement" days when there was a weird trend craze of putting desktop GPUs and CPUs into huge laptops, at the peril of...everyone?
So after a few months of having it, I decided to integrate an AIO water cooler "onto" (into?) it.
From a Youtube videos I learned the ins-and-outs of molex, lapping copper (how to not breath in ultra toxic metal dust was a welcome bonus), 12V and 24V switching power supplies, soldering, wire stripping, etc., then I just stuck the AIO cooler on with thermal adhesive, hooked it all up with a nice rocker switch and electric wizbangs, and I had a cute little switchable AIO cooler for my gaming laptop.
It looked gross, but actually resulted in a ~10% gaming perf boost and made it a lot more quiet (the AIO was taking a tonne of heat from the CPU where most of the heat and gaming bottlenecks came from.
It really did look hilarious. It was a fun story when guests came round for food/drinks/whatever; I would often get asked about what the heck it even is, as it just looked like some kid hot-glue-gunned a bunch of random wires, fans, and boxes to the back and under-side of a laptop.
One of my favorites is an RC boat made out of metal. It turns out that you can get 0.3mm thick, tin plated steel, cut it with scissors, bend it, and solder it together with a normal soldering iron.
Another other one would be a split keyboard, for which I designed and built everything (case, pcb, plate, software) from scratch.
I make a lot of marijuana paraphernalia (stash boxes, rolling trays, pipes) all from wood. Its a great stress reliever (the wood work, not the weed - never mix the two), and people love them and buy them.
With each new product, I try to add a new skill to it. So for my stash boxes [1] (I've only made 3 so far -- all prototypes), I have an "air-tight" lid that requires being within 0.001-inches, and the lid incorporates a rolling tray on the underside, so you open it, flip it over, it reseats inside the box, and you have a stable tray to grind you herbs and roll a joint. I haven't figured out mass production on it yet, though, so each one takes me about 2 hours of work, and none of them are perfect, but that is the fun part of it. Figuring out how to make something is easy, figuring out how to make it more than once and quickly is a challenge.
It's 1/thou, not 1/10k. 1/thou is within a couple thou of the maximum difference in expansion.
How I keep my wood from over expanding and shrinking is by using aged woods. My red cedar (what my stash box is made of) was cut down multiple years ago and stored at my grandfathers sawmill, it was then milled 2 years ago to 3/4 rough. I hold them in my shop for over a year before I plane them, then another 6+ months before I use them. All that time, the moisture has stabilized (theoretically), so the only expansion and contraction would be through temperature, which has a much smaller effect than moisture.
I have had some of my wood products expand in shipping, but after a week of them sitting in a person's home, they will be back to normal. That was my vape cart holders. So after a few people said when they arrived they couldn't use them. I started milling them a little looser.
Built "Free Enterprise" (AKA 'Big Bird") with Dave Elliot. My boss was Tom Jewett. That plane along with the golden Q2 shown at Oshkosh 1981.
I'd be super impressed if anyone knew my name ;-) (Fred Jiran would know me) (plus, I was hired by Boeing in 1985 and worked in MR&D Composite Primary Structures)
P.S. G. Michael Huffman is a BFL (big fat liar). He came on after Dave and I completed the aircraft, INCLUDING the landing dolly. Actually, I give 95% credit to Dave there, he did most of the final work, since he was a registered A&P.
Being young I thought I had discovered free energy, so I set about making this. I carefully setup an experiment in the school fume cupboard, and then experimented with different container radius until I was able to setup an oscillating standing wave. I then put styrofoam that had magnitized nails on the surface, held in place by copper coils wrapped around plastic hollowed out pens, and the vertical motion of the floating styrofoam magnetized nails induced a small current in the coils.
My chemistry teacher then spent a good few days explaining to me why the chemical reaction runs out eventually and how the laws of conservation of energy worked. It was an amazing learning experience and sparked a lifelong interest in chemistry.
I've made a bunch of cancer-causing virus as a grad student. After all the COVID lab leak stuff, it's become a story I need to preface with the fact that it was all zero-risk in terms of leaking out of the lab, and the only person at risk was myself.
The virus was specifically missing the ability to replicate, but it did have the ability to infect cells in a dish. That means it was just BSL-2 stuff. Our lab studied cancer, so we'd mostly infect them with cancer-causing things like a mutated PI3K that would fluoresce so we could track it in the cell with a microscope. If people are curious, we'd mostly work with lentivirus.
It's a dream of mind to make some of the cool sorts of mechanical things people are posting here. I have multiple drawers with arduinos and components, but so far my projects hit a wall because of my lack of skill hehe. Practice makes perfect!
That's so cool! Bioengineering things like that blows my mind. We (humanity) can take bacteria edit their DNA and make them produce all sorts of useful things. Enzymes, insulin, flavorings, colored dye. Some of that's old technology, too, it's just that petroleum based processes are cheaper that we use them instead of using bacteria for things.
This is a partial cheat, because there was software involved, by the coolest physical thing I've made is probably the photobooth I put together for my wedding, combining an old laptop with a broken hinge (which allowed it to become a cheap touch screen), my Sony A6300 and big Epson photo printer, all crammed into some ikea shelves that I boxed up with some stiff cardboard and decorated as nicely as I could to match our thankfully fairly rustic wedding [1].
It was very simple to use, completely automated, took no maintenance other than loading some paper every few hours, and people were free to print as many high-quality 10x15cm photos as they wanted, and if I recall correct, that number was somewhere in the region of 200. There's something special about a physical print compared to seeing a picture on a screen.
The reason I think it's cool is because even 5 years later, I still visit friends and family and see photos printed from the photobooth framed on their walls, and I've had multiple friends use it for their weddings too!
I think the advantage of keeping it unmanned and simple was that older couples had a bit more confidence to get up, press one big button, and get a photo without any fuss. We had an actual wedding photographer there too, and they got plenty of wonderful photos, but mostly of the wedding party. It's only been a few years since my wedding, but unfortunately, some older guests are no longer with us, and the photobooth has left us with some wonderful photos to remember them by, which otherwise I don't think we'd have.
Very DIY, bit in my rather biased option, very cool.
During Covid I bought a sewing machine and taught myself to sew - then I made my daughter's matching dresses (and a ton of other stuff including toys, bags, etc!) I definitely became a bit obsessed for a while...
I still get a bit impressed with myself when I build a new Cigar Box guitar. Build something that can actually make music, using nothing but, usually, spare parts and almost completely out of wood is pretty cool.
One of my neighbors recently had their move away to college and him and his wife were finally throwing out some of his old things. There was enough things to make them a nice three string using bits of an old desk and a metal arts and craft box.
Gave them them the completed guitar around Thanksgiving and they ended up giving it to their son, who had started playing guitar while at away at school, for a Christmas gift.
I like to think he'll continue to own, and use, those small bits of his childhood as he moves further into adulthood.
Search for "in case of revolution break glass" and you'll see a bunch of photos of copies, some even for sale, of a physical meme that a friend and I built over a decade ago. You'll also see the original mixed in there somewhere :-) It's still in my apartment.
(Credit goes mostly to my friend for the construction, though it was my idea and I placed the lettering by hand.)
No seriously, it was a model suspended above a maglev bed.
I then added an Arduino, MP3 player IC, and IR detector so that it played BTTF quotes as you walk past.
I've also repurposed an old 2.1 gaming chair hifi into an all in 1, custom "T" shape 3d printed gun metal/copper case, base speaker underneath, left right on top, controls in middle.
Possibly a garden - growing lesser known varieties of fruits can veggies is something I find interesting.
Or maybe making a traditional bow. Identifying types of wood, reading the grain, and turning it into a bow is interesting. I think most people have this concept that wood is this rigid thing, but seeing a traditional bow on a tillering tree is something else.
Making an (archery) bow is one of the most challenging woodworking projects of all --- removing 1/1000 of an inch of thickness from the back (evenly) will change the draw weight by 1 pound, and when the stave is first roughed out, there is a single point in the structure which is the weakest which defines the maximum possible draw weight for that bow --- that is, until one tries making arrows, as the old saw goes:
>Any stick will do for a bow, but an arrow must be perfect.
I've made a couple --- one of my most successful was a Decurve-reflex hickory-backed hickory Flatbow:
I was going to say the same thing, but with non-edible plants. I grow succulents and cacti, which are beautiful and extremely unique (seriously, the bear paw succulent is the CUTEST THING, and a String of Pearls has a window in each pearl showing you how much water is in it!).
It's so satisfying to watch them grow and to show progress... even if I have killed a few on accident.
I was told the Snoo was the bees knees of baby rockers. Damn it was pricey (1600) bucks. I luckily saw a friend's model in action. Figured it can't be hard to make! Bought myself an Arduino, a stepper motor, a few trips to home depot to get some 2*6s (needed a bit of experimentation here) as a base and a lazy Susan swivel. Voila! Hard work but a lot of fun as I not only had a working rocker (definitely wasn't as pretty as the Snoo but also learn a lot of mechanical engineering in the process. Oh yeah I did rent the Snoo for a month so the baby would have something while I was working at it.
haha - nice. By the way for me it was more the "principle" than practicality. I found tons of much simpler solutions that would have worked. Snoo charging that crazy mullah was something I couldnt accept!
I used to be deep into the mechanical keyboards rabbit hole.
On of the nicest switches out there are worn in with time, so I created a machine that wore them in by pressing them multiple times. Never got to finish it but used it quite a bit:
For a nice analogue of that: At the Steinway factory they have a machine that breaks in the actions of new instruments, it's a giant eccentric wheel that presses the keys and releases them again once per revolution, they let it sit for a few hours.
I came here to say the same. And let me just say, that with special needs children, it truly is the hardest thing I've ever done. I remember older people saying that sort of thing before I was a parent and I was SO DISMISSIVE. Like, "oh yeah sure, you put you heart into it, it's important to you," whatever. But holy fuck. It's actually really really hard. Love is NOT enough. Strategy is NOT enough. Patience is NOT enough. It takes everything you've got.
Even though lots of people are parents, being a good parent requires a huge amount of work before, during, and after their childhood. We should celebrate people who actively give their children a good household and life. Your life is going to be pretty turned upside by having children whether you invest your energy in them or not - might as well make something great out of it.
Cobuilding and comaintaining the whole family unit is a major accomplishment that we do not sufficiently value in the tech community, especially in the VFX & video game industries. Sure you raised some VC or had an exit or launched a game or got a paper accepted somewhere or have a popular open source project, but did you completely sacrifice having a family to do it?
Other than children, the coolest thing I have made is a medical device. It’s only Class I (requiring no pre-market approvals) but I still had to register with the FDA before selling it.
At first I was making software while selling my device on the side. The feedback from patients and practitioners was so encouraging that I couldn’t bear to keep making software despite the generous compensation.
The majority of the device is 3D-printed and the remainder is formed in 3D-printed molds. I have over a dozen printers and one full-time employee keeping them going. Hoping the business will make enough to start paying me, too!
I made another programmer. My daughter just finished her first year of her CS degree. I hired her as an intern at my company and gave her a project that I thought would take several weeks. She proceeded to finish it in just a few days.
Watching her deploy her code to production for the first time...absolutely the most incredible feeling I've ever had. Way cooler than when I deployed my own code to production for the first time.
I'd be proud of her no matter what career she chose. But there's something absolutely amazing about being a part of your child's journey from crawling to coding.
Took an old 42U rackmount cabinet and turned it into a dehydrator, last year. Cleaned it out and used light diffuser grille for shelving, a little table fan for air movement and a simple speed controller. Ugly fruits make great dried fruit snacks.
Software may become involved. i'm playing with ideas for adding temp / humidity sensors and putting the fan's speed under the control of something that switches it based on time and those sensor readings. The in/out vent baffles could be actuated by servos. It completely lacks blinkenlights, which deficiency keeps me from showing it off more.
Children. They are not made in a night, or in nine months, they are made over the years you raise them. When they are sick and you care them, when you are sick and you care them, in the sleepless nights when you ruminate about the world in which you brought them, etc. I'm sure it doesn't stop until you die.
This was a very long time ago, but it's what comes to mind.
In middle school we had an egg drop competition where we needed to make a device that would allow a raw egg to survive a fall from the ladder on the back of a fire truck. The device was subject to various limitations like not having a parachute or an engine.
Everyone else had these elaborate contraptions with springs and whatnot. My solution was a bunch of egg cartons bound together with twine. I made it in half an hour. It was the only one that survived the first round.
Hah - I did exactly the same thing. No complexity - cut the corner off a couch cushion (small puffy one) shoved the egg in, taped it shut. Won by a landslide vs all the other contraptions.
Survived the initial 2 story drop, then a 5 story drop. Then being heaved as high as possible by the athletics coach off the 5 story drop.
Only broke when it got slung around so hard that the tape came off and the egg came out midair.
Long story short - Eggs like being compressed on all sides. You will win drop tests this way.
Building a hardware business is hard, but it teaches you a lot about product management, supply chains, and empathy.
A few years ago, I launched Bedtime Bulb [0], a light bulb meant to be used before sleep. Since then, my team has reached 10s of thousands of customers, and the reception has been overwhelmingly positive.
It hasn't all been rosy, however. We learned a lot from customers about where the product fell short and what features were missing. We had to pull the product from some markets due to performance issues. We learned the hard way about customs issues, damage in shipping, and much more.
Unfortunately, hardware has long and expensive iteration cycles. But my biggest advice would be to stick with it and continue to learn if you have some feedback from the market that this could be successful. My biggest role models both went through long periods of failure: James Dyson's 5,000+ prototypes and Tony Fadell's years of building ahead-of-their-time products.
And stick with it we did. We are going to release a new version of the bulb in coming months that fix all the issues of the previous product, as well as introduce some new features we think will move the lighting space forward. And we are combining our vision and additional feature requests to release even more advanced products.
It's been around more than 15 years in various forms now, but people still love playing it. If you're in London it is at https://www.novelty-automation.com/
What a clever idea! It got an exercise bike and noticed it was boring, so I hooked it up to a speed sensor and used that control VLC playback speed. Very motivating, to watch a movie like that because if you slack off it will slooowwww dooooowwwwnn.... And not nearly as boring :)
My dining table. It's a trestle design, made from walnut, breadboard ends, wedged and drawbored tenon joinery for the base assembly, and large enough to fit 10-12 people around for Thanksgiving. The lumber cost $1,400 and it took over a month to build, but it really transformed our dining room.
Some day, I look forward to building a guitar and a telescope, either of which have the potential to take that title away from my dining table, but that will be several years down the road for me.
that's so cool! what do you do to keep the screw cores from freezing up solid? I've found myself blowing them out, sometimes unsuccessfully to evacuate the ice core.
You are right on the money. We never really solved that problem for cold ice. The fumarolic ice caves we tested in were close to 0C, so it wasn't a problem. But we did a test campaign in a -25C walk-in freezer, and had to use a hot air gun to clear the end effector manually every step. If we got funded to do another version I think we would try to incorporate some kind of heater.
My father runs a car wash and I built a vacuum cleaner that accepted coins using coin acceptor from Aliexpress and Arduino. That was fun but it lasted only a few months until the device got too dirty from open weather to recognize coins properly.
I've looked at the stuff that gets built into car washes and that's a seriously hostile environment, but the weather by itself can also be pretty nasty. Quickest way to demolish a house without any effort: open the windows and doors, maybe a small hole in the roof. The weather will do the rest.
Speaking of guitars, I am currently restoring a Korean superstrat I have since I am a teenager that seriously needed love. I am learning a ton of things like fret work, electronics and light wood work.
I have a Vintage V62 ICON that I modded heavily. All new electronics (including pickups), replaced the bridge with a Babicz full contact, and I had to do a lot of work on the neck, especially fret sanding, aligning and polishing.
It's really cool to see your work improve an instrument. That's now my favourite guitar to play. Pretty low action with zero buzz, pickups can give me everything from full dynamics and great range, to easily distortable power solos.
I'm now in the process of building a new guitar with a 3D printed body. I bought an unfinished neck, so I'm also learning about applying lacquer which is interesting.
I build a house!
And by that I mean I buld it with my hands:
I layed every brick.
Did all the rebar & concrete.
Did the roofing.
Mounted the windows.
Installed the electrical.
calculated and build the heating
...
Besides of a few smaller crafts, I did most of it myself A
and with some help of the family and friends.
But I'm still pretty proud of it.
This was my corona project.
Not nearly as cool as most responses but the other day I re-hung our house's back door as the hinge had snapped. I had to chisel new slots for the bigger hinges in the frame and the door. No way as neat as a proper carpenter would do but very satifying especially when you open and close the door for the first time and it doesn't catch the frame and the lock still lines up.
The silliest thing I built was a hot-tub water heater system for one of those inflatable Intex hot tubs. Running the heat off 1500W was stupidly inefficient, so I went out and acquired one of those tankless propane-powered hot water heaters and rigged it to a commercial RV water pump and a 20# propane tank to circulate water into the hot tub that way. It heated the tub up from ~50* faucet to 104* hot in about 3 hours, instead of closer to 30 on 120V power.
The other thing I built is more of a lifehack living with sleep apnea. My CPAP's humidifier failed, and instead of replacing it with another proprietary humidifier, I bought an external CPAP humidifier[1] and then realized I could, with some clever plumbing, rig up a water pump from an external gallon jug of water to automatically re-fill my humidifier in the morning at the push (and hold) of a button. I took an oxygen-insertion tee, 12v pump, and some tubing and a check valve and attached the pump to the oxygen line on one of the inlets of the humidifier chamber. When you push the button, water flows through, through the check valve, and immediately down into the chamber.
It's been tweaked a little bit since then but it's my FAVORITE thing on my nightstand now. (And yes - that is a recalled DreamStation 1 - I personally opened it and repaired the defect foam myself. I don't trust the replacement device they sent me any farther than harvesting the motor from it when my old machine fails.)
"Redneck hottubs" are a relatively common thing and you can get some amazing looking ones, from a fire under a cast iron bathtub to a complex system involving miles of copper tubing and burn barrels.
I started painting miniatures last year. It's fun. This is only the fifth model I've completed. Definitely a novice, just trying to get the techniques down.
As a teenager, a friend and I built an underwater rocket, with the idea that a solid model rocket engine would burn when submerged, provided we could get it lit. We started with an Estes model rocket (https://estesrockets.com/products/mosquito IIRC), inserted the engine and igniter, and sealed the entire exhaust end of the engine with hot glue, as well as around the seams elsewhere. We installed a standard launch pad in a big trash bin filled with water (our original idea of swimming into a lake was quickly scrapped) and wired everything up.
It worked. The rocket actually launched from underwater! But by the time it reached the surface, the drag of the water had ripped two of the fins off, so the in-air portion was pretty wild. We even caught the whole thing on 8mm film (this was in the early 90s).
A shoe sole cleaner, which I call the "Sole Glo". Made out of mahogany and oak for the body, a small reclaimed motor, a couple toilet brushes, and some basic wiring with a pressure switch. It actuates when you step on it and does a great job of cleaning snow off your shoes. I've made 4 of them, plus the prototype.
* high variance in teacher quality (we had such a bad French teacher that after 9 years of lessons, I knew less than those who had 4 years at a public school)
* long hours
* since the school didn't believe in failing students, everybody was kept in class, and the teachers had to do lots of repetitions to accommodate unmotivated students who remembered nothing from the past two years of classes. Very boring and demotivating for others.
I made a spinning LED sphere that has 72 addressable RGB LEDs on a 3-spoke "propeller" that spins on 2 axes. This is still a work in progress, as I need to design the final control board PCB so that it's not a bunch of breadboard wires, but the main physical assembly is complete.
* Got and learned how to use a 3D printer
* Learned parametric CAD in Fusion 360 to design the main assemblies that the motors, slip rings, and propeller attaches to.
* Learned how to design PCBs and had them made
* Re-learned soldering and did SMD soldering for the first time
* Learned some ESP32 programming to control it with bluetooth (I have plans to have a robust live-editor so you can control the light patterns from a tablet - currently on pause)
I've rebuilt most of the electrical system in an RV I recently bought. It started out with a basic "shore power" system as the dominant source of electricity along with a couple lead acid batteries. I've replaced the old batteries with LiFePO4 (lithium) batteries, swapped out the AC->DC charger/converter with one that can charge lithium, extended the main AC power cable into a central electrical bay, installed a 2000W inverter, installed a hardwired EMS/surge protector, and a transfer switch to automatically switch main power to the inverter whenever it's powered on. Next is to install dual 400W solar panel systems (it could have been a single 800W system, but it was actually cheaper with a dual 400W system).
Ultimately I'm going to live in this RV and work remotely as I travel.
I'm interested in learning how to do this kind of work. I ultimately plan to install it in a van or trailer, but I'm thinking of starting with some kind of portable solar system to use while camping. Do you have any recommendations for resources to learn about these types of systems?
Renogy is a popular brand for solar systems, and they have some great resources. Also lots of YouTube vids that walk through solar installation on RVs and vans. Once you know what you need (panels, charge controller, batteries, inverter), it starts to come together pretty quickly. I’d just make sure to scope out your typical watt usage so that you size the system to what you need. For me, I can run everything for a remote work setup _except_ the air conditioner and things like the microwave (I’m on a 800W system with 200ah of battery). My fridge can run on propane, otherwise that would be a non-starter for off-the-grid remote life/work.
I built a few custom scientific measurement equipment over the years during my Postdoc and at a biotech startup.
System to monitor crystallization/freezing of ice in 2-5nm diameter pores within silica (coated on molybdenum mirror) by infrared absorption (https://lylegordon.ca/researchoverview.jpg).
Micro-rheometer to measure viscosity of samples as small of 3uL of liquid (this was an improvement on a NIST design that didn't require calibration of capillary diameter)
Porosimeter to measure active (flow through) pore size (5-50nm) in tiny membranes that only flow a few microliters per minute of helium (gas).
Custom time-resolved pycnometer to measure flow rates of membranes attached to a closed volume, detect leaks, and measure the internal volume.
I made a spice rack out of unit size lumber which was strong enough to survive nuclear war.
I made a bed-desk combo when I was 16 which was similarly robust but that time modulated through my dad's sense of 'less would be more here'
I used Victor Papanek's books to get plywood "H" sections made which formed a modular bookcase I continue to use, which has been through 5 houses across 30 years now. The unit scale included a cassette tape minimum size alongside standard paperback and large format/LP scale.
I made another nuclear bomb proof wooden thing, a cassette storage case which doubled as a suitcase to move the entire collection around and then hang it on the wall. in hindsight, 90 tapes of cajun music and "my mix tape" was less in need of portability than I thought.
I wrote, illustrated and self-published a book about mental health, psychedelics, sex and meaning in life. It's meant as an anti-dote to self-help (while diving into those topics) and a memoir of a strange part of my life where I had to rebuild my mental health from scratch.
I was incredibly proud to have copies in my hand, and it's sold around 100 copies, which is more than the 5 I expected.
Here's some art I've made by carving linoleum blocks and then printing them on paper: https://imgur.com/a/gdRTrYp
For many of them there's usually multiple images or ideas expressed within, but it's difficult to get people to share their thoughts or feedback beyond a simple comment that they think it looks cool. The most rewarding feedback is when someone spots an unintended detail or interpretation which I hadn't considered during their creation. I think a key aspect of art is in the act of interpretation by part of the viewer. The creation of beauty in the interaction between art and a mind.
My wife and I made a robot for our wedding to be the "flower girl" and "ring bearer". In the months leading up to the wedding, we realized we hadn't asked any of the nieces or nephews and that we wanted to add something unique to our wedding. She's a mechanical engineer and I'm a software engineer with electronics experience, so we threw something together. My only regret is that we didn't get the robot on camera during the wedding because it worked so great!
After leaving my old job, I realized that I loved the device design work I had been doing, I just didn't like the work environment... So I started my own company and designed my own fine pointing device, sensors, controller and software.
The company didn't go anywhere because it turns out that business is hard when you don't like to self promote, but I am incredibly proud of the end result. It has high bandwidth, <100nm RMS jitter, a nice network interface, and incorporates reinforcement learning-based controller tuning
neat, I don't think I have any use for this, just used a few pre-assembled laser galvos for optical coherence tomography but I love the super niche small companies selling hyper-specialized instrumentation.
Thanks for the kind words, and agreed, I enjoy the enthusiasm and detailed craftsmanship you see in the boutique shops. Makes me think of watchmakers or similar...
Several years ago I bought a sailboat that was sitting on a rusted out trailer, and I decided to build a new trailer for it from scratch. Proud moments were when I finished that part that the bow of the boat sits on with the crank thingy and my wife asked where I bought it, and when I went to register it at the state patrol the inspector didn't believe I made it myself. Anyway, the kicker was that since I live in Washington State I had to show all the receipts for the materials to prove they had been taxed, and the total came to....almost exactly the cost of buying a new galvanized trailer off the shelf. Yeah.
A engagement ring for my wife. Made it out of a piece of wire coat-hanger that I hammered down and polished, then mounted a small cubic zirconia gem to it. Probably took a couple of days to make.
As a kid in high school I built an FM transmitter including etching the PCB at home and everything. Even thought it was not super high-powered (you're not supposed to build a high-power FM transmitter, especially back then when radio was not digital) it was super fun to be able to speak to this little thing I built and hear it come out from the radio.
As an adult, I built a clone of a Fender Champ guitar amp, completely handwired with an eyelet board like they did back in the day. It sounds amazing for such a simple circuit and is actually an object I enjoy using as opposed to a toy like the FM transmitter was.
I went to art school for college, and one of my internships was working with a guy who did facial prosthetics using medical-grade silicone.
I made a couple of eyes and ears, and kept some of the discarded ones we used during testing. I still show people for fun every now and then because they look extremely realistic.
I don't have any pictures available but I do a link to some of my old artwork (I don't really make art anymore):
I took a Shapeoko 4 Pro CNC, which is a belt driven machine, and redesigned it around ballscrews for the X and Y motion. I reverse engineered the stock machine and rebuilt it in CAD, and made the new parts using the existing Shapeoko. It was made out of 6061-T6 aluminum, and some 3D printed components.
I assembled an Airbus A380-800 model. I had no prior experience in assembling models however I used to play Lego as a kid. This model took about 2 weeks to complete and I did it during my sabbatical. It was a bit harder than I thought it would be and I did unrecoverable mistakes when gluing and using the stickers but overall it was a great feeling to have it done. Now it has its dedicated space in the living room.
In my old career, I built high speed fluorescence microscopes with lasers and fancy cameras. The scope parts were off the shelf, but the software was mine entirely. So were the firmware tunings for all the outboard equipment! Manufacturers in the 2000s would give you nice technical manuals with "enter at your own risk" appendixes with all the control settings. Was real fun eking out another 20ms~ from a filter wheel with some custom acceleration parameters and balancing. I used Ryan Geiss' milkdrop timing code (http://www.geisswerks.com/ryan/FAQS/timing.html), an absolute gem for Win32 timing quirks.
More recently I've: put an entire exhaust on my car due to manufacturer telling me it would be 2k to replace, rebuilt my garage door frame, reroofed part of my garage, and repointed my historic brick garage wall.
For the repointing, I had to get lime mortar which is rare in the US but here in PA we have a lot of old stone. DeGruchy's NHS to the rescue, color matched and everything. The labor is over the top, but the tools are cheap. I paid for this once and they did it so badly I decided it's simply not worth it. It should last another 50-100y!
It was a long time ago but I and 3,000 other people built the Edwin H. Gott, the last 1,000 foot ore carrier on the Great lakes. I got a summer job as a welder at Bay Shipbuilding in Sturgeon Bay, Wisconsin. The Gott is on Lake Erie this evening. https://www.marinevesseltraffic.com/vessels/EDWIN-H.-GOTT/CU...
I built a super cheap "traditional" dry sauna. It's basically an electric burner, a pot to increase surface area and humidity, a 25 foot roll of thermal foil, and a sleeping bag as the ceiling. I disassembled the burner, removed all the plastic pieces, and short circuited the safety cutoff. It's jank AF, but in the end less than 100$. AFAIK there aren't any dry saunas under $1000 - the heater alone is ~$200. Mine is also portable, so it's in the garage in summer and in the laundry room in winter. There are portable infrared saunas for ~$100, but most studies are on the "dry" type. I rubber band a block of ice to my phone and do my reading/social media in there, so the time cost is reduced. It's pitch black in there, so I have a very bright night light. No problems with air circulation - it doesn't get stuffy, even when I throw a dash of water in the pot.
https://i.imgur.com/Lml7Vms.jpg
2 years in and I haven't burned down the house... yet. I've since added more ceramic around the pot so burning myself would be very difficult.
Building my own mechanical keyboards and learning to paint with gouache (not that super amazing end result, but is for me super cool to have a physical painting at the end of a session).
I once built an elevator for a vacuum robot in my old dorm which had two floors. The elevator was moving twice per day to each floor. Was as cheap as buying a second vacuum robot.
Just a simple thing compared to the epic works of art and engineering seen elsewhere in this thread, but it pleases me and that is enough.
Don't even have a name for it, but I trapped a bunch of small bearing balls between a couple sheets of acrylic, so they are free to move but only in 2 dimensions.
It is so relaxing to handle, it's a hefty thing with around 4500 2mm balls in it. I like holding it on my lap and swishing around until I manage to form them into a single lattice. As the thousands of little balls roll, they make a sound that is the mix of raining, a stream, or a million Lego pieces being dug through.
While building it with my dad, we weren't sure how to fix the acrylic plates together, so we used some double-sided tape. My dad raised the board before his eyes, but a terrifying crack was heard, and the smile that was on his face turned into a frown at the exact same rate the level of the balls dropped from the frame.
We spent the next 2 hours sweeping his workshop to retrieve all the balls, and then fixed it with double sided tape, glue, and an outer "framing" of a fabric tape which is really good under tension.
SmartPoi, the Android WiFi controlled Persistence-Of-Vision LED equipment I use in my flashy light juggling shows every week.
When I bought my remote controlled juggling equipment I thought I had everything, then I found out about Pixel Poi(TM) - which at the time were unobtainable for the kind of budget I was on. I actaully cried. For real.
I knew I had to have them, so this set me on a 10 year journey over 5 prototypes (including an early one on stripboard with 120 hand soldered LED's!) where I taught myself to program, 3d CAD, design circuit boards - even did a full Stanford U course on networking. It gave me the skills to survive the pandemic financially by making a living doing remote coding jobs (I'm a professional juggler and magician).
The project lives on today in my show and in the future at http://magicpoi.circusscientist.com - where I am bulding it out to be a full platform for IOT flashy light equipment.
My family and I built a two story house as a family cabin in 1992-4, which was a cool experience, albeit exhausting and humbling. The only things we didn't do were the foundation and some of the finish drywall. Everything else we did mostly in a single summer, from the first floor joists to the roof (which we did in 90F weather!). Great experience, really helped me understand what is behind the walls of my future homes.
I'd say my son, but really my wife is the one that built him ;)
That's my biggest project too! Building a house with the family. We also made the foundation using cinder blocks! The only thing we got help with was digging the original hole and smoothing the concrete floor in the basement where a friend came by with his gasoline powered trowel. I sure remember doing the shingles because I did a lot of them!
Make sure everyone involved is closely aligned in what they want out of it! Half our family wanted rustic, the other wanted a modern house built in the woods, it caused a lot of issues. Likewise, talk about timeline and set expectations, who wants things done by when? Some of us through we were going to take a year to build the cabin, others thought we were going to have it done by the end of summer!
One of my favorite things that I’ve made in terms of utility is a little leather belt holster for my AirPods. I wear it almost every day and enjoy the functionality of it. I made it for the first generation AirPods case, but it still fits the wider AirPods Pro case sideways, so I didn’t have to make a new one for those.
My ex and I built a large physical love note to each other by way of turning what started as her boring studio apartment into an interactive art installation we would live together in and build.
It’s now an exhibit in Manhattan and over 100k people have moved through the whimsy and magic at a huge scale… and yet, it started with a huge crush between a nerd and an artist.
An almost complete set of helicopter flight controls for XPlane out of wood, aluminum, potentiometers and USB controllers. Works exceptionally well for a virtual Huey.
"DJ" (music) control for toddlers - colloquially referred to as "the buttons" in our family, they've brought substantial peace to our household & they've helped our kids improve at negotiation/compromise/etc.
I read your article - followed the intro quite closely and then looked for the solution and it was 'the buttons' followed by a bunch of technical stuff that kind of made me loose focus. So in the end I don't know exactly what 'the buttons' is hahah. Reminds me of the Hudsucker Proxy. 'You know, for kids!'
I like visual astronomy and manual pointing (star hopping).
Build a 12.5" Dobsonian (with Dobson) and it was great.
I also love doing public outreach (sidewalk astronomy).
Wanted robust, portable, mount for larger mirrors.
Ball scopes tick many of the desirable trade offs for me
I put a 16" mirror in one and it was a favorite for years.
but balls do have drawbacks,
lack of physical access to back of mirror, poor ventilation,
how to lift into vehicle ...
and they can be stunningly expensive to buy.
Sudiballs are my answer to how to easily construct precise
light weight spherical analogs in the comfort of your own home
with materials lying around.
HN crowd could likely think of them as wire frames of spheres
in meat space.
There are of course many (infinite) ways to choose a wire frame
representation of a sphere.
So we choose one that provides convenience IRL.
The "wires" in the wire frame are the edges of some sheet material
such as plywood cut into arcs.
By following the geometry of an octahedron, three planes (sheet material)
intersect at right angles which (surprise) is exactly what our household
tools saws, drills, routers, lasers etc, are designed to cut.
There are other details to make it work, ensuring the wire frame
is always touching the base at least three points.
Eroding the edges of the edges to be one with the sphere ...
2 things:
- Converted a Ford Transit panel van into a camper van that landed up being way higher quality than it had any right to be for my first one. I then lived in it for 6 months through winter in the North East of England and it was great.
- Coffee table from a large slab of cedar, I flattened it with a router and a jig and several hours of patience, put a bevel on the top edge and it looks great.
Started a company to build chip testers. Didn't go anywhere, but I had a ton of fun doing the hardware and software. One specific example is writing a Linux driver to interact with your IP block running on the FPGA. Got to see what happens on the other side of the kernel.
(I designed all the mechanical hardware and the current electrical design & software used in the video, but other people have helped over the years, too)
I make small gametes, and I found someone who makes large gametes. We put them together and made mutated replicas of ourselves. The first experiment has been running over 3,500 days. The second experiment has been running almost 1,400 days, but it's currently significantly louder and more prone to violence. We're very proud of them both.
Note that they're doing a rebuild of an existing house, but the general idea is the same - live in a trailer/old house while you build a garage with an apartment above it, and then move into that apartment and build the main house. This is quite common in more rural areas, such that you can see it even 40 years later; the garage will have an apartment above it, or the barn will have some rooms.
I was so excited last year to get to work on a passion project, which has been at the back of my mind for 15 years. To design from the ground up, a guitar speaker or musical instrument speaker [1]. Something more than just a typical loudspeaker, which is optimized for things like cost or maximum sensitivity, or linearity. I wanted a design that subjectively sounded “good”. It turned out to be one of the most difficult projects I’ve ever worked on. I ended up with two different designs in the end, a standard single voice coil version, and series dual voice coil version. To me, and quite a few people I’ve let try them in different cabinets and with different guitar amps, they sound beautiful.
The chassis is 3D printed and a Raspberry Pi is hiding, with a couple of speakers, in the base. The Pi connects via WiFi to the local network and checks ESPN’s publicly available JSON for that day’s game to determine if the score has changed.
I gifted it to a friend that owns a bar and wanted him to be able to move to new networks and reconfigure without using a computer. So, I wrote some python scripts that interface with the GPIO pins on the Pi to reset the device and broadcast a WiFi network and web interface that can be used to connect to other networks.
A battery-powered sky camera I put together using a raspberry pi pico that connects over wifi to send photos every hour. Ended up going crazy and making a custom PCB for it. Need to do more work on the battery life + camera exposure levels, but overall I'm pretty happy with it, especially how reliable it is given my minimal C skills.
Probably the pneumatic solenoid actuated golf ball cannon I built for my senior.... computer science degree.... project.
I was only able to get one photogate muzzle velocity measurement at the time, but 357 m/s* isn't too shabby for compressed air and a golf ball.
To scale drawing (I literally measured the thing and put the shapes into AutoCAD): https://i.imgur.com/kklUYLf.png - the green crosshairs are the balance point
The other physical thing I built was a IR remote with a raspberry pi zero w for my Cambridge Audio CXA81 amp. I just recently put together and Android app with a couple buttons to interface to the API I wrote. https://github.com/ozfive/CXA81-IR-Remote-Server.
Both projects are mostly written in Go.
Don't get me started on the 2.5 years that I worked on custom AVOD systems for private jets and helicopters. I probably was the first person to integrate an Amazon Echo into a aircraft cabin to control the lighting/audio/video through voice over a satellite connection.
I got really into Indian classical music at one point some years back. I was learning to play the tabla drums from a really skilled teacher that I got connected with through a friend. Was a great opportunity to learn an interesting skill and related to my overall musical interests.
Anyway, I got a basic set of tabla drums that came with a pair of supporting rings and covers. But the rings and covers weren't very good quality. So I went to hobby lobby and my hardware store and bought some piping, plywood, fabric, and lace and made a very nice set of rings and covers by hand. Was a really fun project and came out very nicely. My teacher couldn't believe I went to all the trouble.
Another honorable mention is that I did Ben Eater's 8-bit breadboard computer project. Took a long time and I learned a lot about EE.
This is a bit of a strange one, but I made a free-to-play game that produces “art” posters as a form of monetization. Still a work in progress, but I was able to finally produce a poster from the game, which felt gratifying.
Might post it on Show HN one of these days. Still needs some work though.
I built 2 muskulokeletal humanoid robots with my team. They use tendons to imitate the human muscles. It's also probably the most hugged robot in the world, as we let people hug them at events, which significantly helps dispersing fears of robots. One of them is now a permanent exhibit of the world's largest science museum in Munich. [1] Also university of Oxford has a shoulder using it to grow human tendons.[2]
I once made a "therapeutic bartender" machine in a rapid prototyping class. It showed different drinks on the screen and used computer vision to estimate your happiness with each option (how big did you smile?). It then pumped and stirred a drink from a cooler full of ingredients.
The viewfinder isn't mounted in that picture. The two knobs on the right are from the lens to control the speed (125, 250, 500) and the aperture. The knob on the left is the shutter trigger. Shutter cocking is done by removing the ground glass from the back (which is how you preview focusing). Focusing is done by rotating the front side which is actually a giant hollow screw. The indentations are finger grips for rotating.
I have details for all my 3D printed cameras, unfortunately they're under my real name.
Recently, I've delved into creating and modifying electric guitars. Here are some of the enhancements and modifications I've made:
- Pickups: Upgraded to Fleor's pickups, which are both excellent and budget-friendly.
- Blender Knob: Replaced the traditional pickup selector switch with a blender knob. Most blender knobs aren’t designed effectively. I've found using a dual potentiometer (stereo fader) with a center detent to be the only way that sounds really good. I’m currently exploring slider pots that can be seamlessly integrated into the pickup selector's position.
- Configuration: Transitioned to SS or HS configurations on my Strats. The middle pickup tone falls short, but blending the neck/bridge results in a phenomenal sound.
- Noise Reduction: Lined the electronic compartments with copper tape. This ensures the guitar remains silent, even when utilizing high-output pickups.
- Tone Knob: Modified the typical frequency-adjustable low-pass filter to be a push-pull between low-pass and high-pass. This results in a crisp, punchy funk sound.
- Bridge: Converted my Strat's tremolo system to a hardtail using wood epoxy and by repurposing the existing bridge components.
- Luthier Skills: I've been enriching my knowledge via Stew Mac videos on YouTube, especially on *expertly* setting truss rods. This expertise has significantly enhanced the playability of my guitars, eliminating any fret buzz.
- Design: Ventured into laser engraving on headstocks, pickguards, and bodies, which adds distinct details to the look of each guitar.
Regarding tone, the type of wood in an electric guitar plays an extremely minor role. The primary influencers are the electronics and components in contact with the strings (e.g., nut, frets, bridge). Currently, my go-to instrument is a $65 Monoprice Tele, spruced up with roughly $130 worth of parts and an old Seymour Duncan pickup. Some additional upgrades include a Fleor hotrail tele bridge pickup, engraved bridge with roller saddles, and locking tuners. It plays and sounds incredible. Basically, any electric guitar with a neck that plays well can be made to sound good with improved electronics.
It such a fun activity, especially if you are an engineer+creative type since its involves reading circuit wiring, planning the tones and the sounds that you actually like in the guitar, buying and testing cheap(ish) parts, soldering them and finally playing the guitar with all the mods.
I recently changed the 5 way switch in my Harley Benton Fusion and now the guitar sounds so crisp and bright. All the buzzing and honkyness in the pickups disappeared. The pickups circuit with a 5Eur mod sounds as clear and bright as my EMG retroactives.
Next I want to buy a kit-guitar and learn to stain them for custom finishes. Want to try some of the beautiful bursts that ~10k$ PRS custom shop does.
I once made a circuit which would tun on an LED light when the ambient light fell below a certain threshold using an ATMEL microcontroller. It's actually very easy to do.
The coolest physical thing I tried to make (though it was mostly a failure) was a USB powered fan from scratch. I also tried to make the plastic casing from scratch using resins. I had made a mold for the casing but I had made it out of soft clay (if I remember right) and although the resulting plastic casing did solidify inside the mold and somewhat took the form of the mold, it was too brittle and the two halves of the casing didn't quite line up so they could not interlock neatly around the electronics. I didn't complete the project. I just did it out of curiosity.
My father lost the first joint of his left ring finger to cancer in the nailbed. I designed a tight fitting single joint replacement part which has elastic loops to his watch for keeping it on tight. I've created 3x so far with minor improvements each time.
I once built a custom wooden bookshelf from scratch. It was both a challenging and rewarding experience. I learned about woodworking techniques and design considerations.
It's amazing how crafting something tangible can provide a sense of accomplishment and connection with your space.
When I was in high school, I was looking around a charity shop and I noticed a basket containing a few circuit boards with familiar looking ports. One of them had a website printed on it. I was curious and it cost basically nothing, so I bought it and looked it up when I got home.
Turns out it was for a build-your-own MP3 player kit. It had slots for old SDR RAM, an IDE hard drive, and power connections for an ATX PSU. Turns out, I had the parts I needed from some old pcs I had gotten from my uncle. I inserted the RAM, copied some MP3s onto the IDE hard drive, put it all in a shoebox, figured out how to short a connector on the PSU to start it - and it worked!
It wasn't pretty, and the sound was noisy as heck, but it was a fun adventure. :)
I learned the basics of electrics and rewired my house. While doing that i also learned how to "make" network cables and everything. That in turn has lead to some cool house automation for lights pool and more and now i can make my own homekit adapters too =)
I’ve been building a mobile workshop which lets me bring all my tools anywhere in the country. Including welders, two metal lathes, 3D printers, woodworking tools, an electronics workbench, an anvil and forge, and a foundry setup to melt and cast aluminum and bronze. The whole shop runs entirely on electricity and I have deployable arrays of solar panels to power the whole thing and charge my electric car. I’m even adding a small living area at the front. I’ve been documenting my progress at https://youtube.com/playlist?list=PL8n8vml-zgaCbXwYD_Q2jZzok...
An RC airplane, built out of an old arrow I found in a field, some foam boards cut for the wings using the Kline-Fogelmann wing form [1], and various sundry electronics rescued from the parts bin, including a DVD motor to power the prop.
The feeling of elation I felt when I first chucked it into the sky and off it flew .. can't be explained. I've been making planes for 30 years, but this was my first KFM airfoil, and it was just so neat to see it fly around.
I spent a few years when I was younger learning to cook better... pretty much immersed myself in it when not working. Watched a LOT of cooking videos, the entire Good Eats series, and more. Never made anything especially cool, just got pretty good at sauce work, and understanding how some ingredients and techniques come together. I might have gone to cooking/culinary school in the evenings, but never did well in formalized education environments.
The fairly irony is I now pretty much have to eat very simply, Diabetes, FODMAP and Histamine Intolerance. I eat something I shouldn't at least once a week and usually pay for it for at least a day after.
Similar story, I used to be really into cooking and baking.
I still have photos of sourdough bread, pizza, croissants, cakes, elaborate dishes...
And then I started having weird health issues (auto immune crap, aka doctor speech for "we have no clue what we're talking about but you're screwed") and debilitating stomach pain.
I was on a 95% vegan diet and I switched to paleo, which seemed to help a bit but still caused occasional pain.
After suffering for 2 years and tired of doctors not finding a solution, I tried the carnivore diet.
I pretty much cook the same steak every day and then some eggs or some more meat.
If I eat vegetables I get the taco-bell treatment.
If I eat too many carbs over a short period of time I feel bloated and my gallbladder is not happy.
Fruit is ok but I'm not a fan of getting too much sugar into me.
That's how I eat most of the time... eggs, meat and greens are pretty safe, but when I venture out of that box, I definitely pay for it. I like to say, "I like food, food's the one that declared war on me." When people question it.
I think my personal favorite physical thing that I made was a music box that plays of the voyager golden record. I made it as a Christmas present for my girlfriend. It is light actuated so when you open the box it starts playing a track from the record, skipping one track ahead each time it is opened. It mostly uses off the shelf components for the electronics, and found and decorated the box (sanding/staining/varnish on the outside, and a watercolor painting on the inside. It took quite a lot of effort to get the audio formatted and compressed enough to get it all working, but I think it is really a beautiful object on several levels.
Cleared trees (only those necessary), installed water service, excavated and built a 4000 sq ft irregularly-shaped driveway using DOT methods. Everything modelled and planned down to the inch in 3D using SketchUp. (Buildings to come)
Holds my Bear Custom Kodiak Takedown, half-a-dozen arrows, armguard, tassel for cleaning arrows, belt, and various other accouterments --- everything but the quiver (which I attach to the case using a leather strap).
I need to revisit it to have better proportions for the arrow holder and to work up a quiver option which I both like, and which fits inside the next version.
I made one of those Word Clocks using an arduino, glass, wood, paint, a couple buttons, and a laser cutter.
I painted a pane of glass white, then black, and created the file for all the letter to say the time as well as happy birthday. Took it to a laser cutter to etch it into the glass.
Made a backing with leds programmed to display correctly the date and time, iterate through colors, modes, etc.
I also made it in Hebrew too. I have the code somewhere if others are interested in making it.
I made a musical automatic Hanukkah Menorah using an Arduino (Seeeduino XIAO SAMD21), MDF, birch veneer, melamine edge banding, a GPS module, tiny speaker, LED strip, and a CNC machine.
You pick: a windmill, a refurbishing + automation of a grand piano, a workshop, a CNC plasmacutter. I love projects and I always have one or more things on the go (usually one for good weather and one for bad weather).
I made a robot that could replicate a painting (that you made using the robot). The robot was controlled by a Wacom tablet so it had 3 dimensions of input (x, y, and z for pen pressure). It was able to replicate its own paintings using just dead reckoning. Was fun programming custom Arduino code to drive the motors.
When I look at what my parents have achieved, I feel remarkably unskilled by comparison. Perhaps that's partly because I've only ever been a renter, not a homeowner. I've not had occasion to learn how to install ceilings, lay tiles, build fences, or fix plumbing. I suppose I should put more effort into smaller pieces. I've done some painting in the past. (One painting I did hung on my grandparents' wall for many years. They're both dead now, and I don't know where it is.) I'm making a start on making some mediaeval clothes.
A 3-D chess board. No, not one of those lame ones that you can put on your desk with 3 boards. And no, not like the one on Star Trek either.
It was a full cube (8 x 8 x 8). Major pieces on boards 1 and 8, pawns on 2 and 7. The moves for the pieces project to three dimensions in a fairly straight-forward manner. Pawns can only queen on the farthest board from their start, on the farthest row.
The whole thing stood five feet tall, and you were constantly squatting to see what was going on across the boards.
I even once convinced a friend to play a game with me. Once.
Most were made when I was a child. The first was a power stealer that used radio waves to power an LED. The second was a large wooden glider around 5 feet long and wide. The third was a pair of glasses for reading while walking using a half-silvered mirror and a magnifying class to project miniaturized mirror-reversed book pages into my eye so I could read while walking between classes in college. The fourth was a studying shack I made while in grad school (which I commuted to, so I needed a private space for dedicated study time).
I've built several mechanical wristwatches. Including assembling one movement from scratch (so difficult I've not been tempted to repeat this, I'll stick to storebought for new projects)
I made a silverware holder custom-fit to my silverware.
I found a half-inch thick HDPE cutting board at a restaurant supply store, cut it to fit my drawer, then drilled holes in it and inserted short wooden dowels to hold the stacks of silverware in place. To position the dowels, I wrapped a nail in tape to match the diameter of the dowels, then placed my silverware on the board, slid the nail up next to it, and gave it a tap to mark the board where the holes needed to be drilled.
It worked really well and was quite easy to do. I highly recommend it.
A fence on a ridge. High tensile wire, pickets and some other fancy stuff. All hills and transitions. 1 pedestrian gate and 1 wideish chainlink gate. Wood posts and tposts. Box braces and such.
The coolest thing I made is probably my two-tier, 3-kettle, 240v E-HERMS homebrewing system, but that was probably only about 15% fabrication and 85% integrating off-the-shelf hardware.
For some reason, the thing that still feels the coolest was the RC hovercraft (converted from RC airplane parts) that a friend and I made for a science fair. It was a bit silly because it wasn't cordless, but that attribute doubled as a nice safety feature given that this was being piloted in a gymnasium full of kids.
I put together a "reverse trivia" card game called Inquiring Minds structured around the mechanics of classic card game, Rummy.
Rather than each player attempting to answer questions as individuals, players need to come up with their own questions, and are rewarded when they can demonstrate some piece of trivia that nobody else in the room knows.
I assembled an automatic watch for about 100£. I wanted to buy an automatic watch (I was planning on something reasonable, around 1k-3k) but none of the watches pleased me completely.
I bought a Miyota movement, a case, hands, a face, a leather strap and a bunch of tools.
It wasn't easy to assemble it and there is definitely not a lot of documentation online, but it wasn't impossible either.
It looks great, it's exactly how I wanted my automatic watch to look like.
Highly recommend the experience.
A long time ago I made a needlepoint for my mother out of one of her favorite photos. I thought needlepoint was interesting because it's basically pixel art except much more laborious since each pixel requires a physical stitch. I ended up writing a program to transform the photo into a needlepoint pattern, and for a while I turned it into a website for folks wanting to generate their own patterns.
I wish I had the patience to do something like that today, but there are so many other distractions.
A turbo Miata. Not that unique but it was a collection of all the fabrication I did in the last few years. Taught myself how to weld and it was super fun to make things for it.
A device that levitated tungsten filaments in halogen bulbs so they wouldn't sag as they were "seasoned". I used a DC current and an electromagnet to allow the Lorenz force to cancel out gravity. That was a one off, but I thought it was cool.
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I worked in a shop making gears for a few years... I made most of the drive gears for the Marvel 8 bandsaw between 2016 and 2020. I also made lots of other gears. I'm sure that most of them will be in use for decades.
A 20x20 transforming tubular steel sculpture for Burning Man. Learned how to calculate structural limits of steel structures, how to weld, swedge, cope, bend. Made 350 3-way joints out of just tube. Assembled over 3 days in different configurations and finally served as a human cat-shelf and platform for spray-painted art on sheets. Fucker was heavy... next time I'm using aluminum.
Next up this fall: a kinetic wooden sculpture that destroys itself with fire
Hardwood desktop for a sit/stand desk frame. Made from walnut planks ranging in width from 3-6" and length of ~5ft bought via mail order. Hardest part was jointing the boards (making the edges flat/square) using a router instead of a jointer, which I don't have (yet). Probably too much waste material but you learn as you go.
The fun thing about wood projects is you can cover up mistakes pretty easily and for big mistakes just make the project smaller.
My startup builds (friendly) security guard robots, and now has a fleet of >100 deployed around the world.
Long ago when we were seed stage I spent Christmas morning finishing soldering in the first unit to hit our first customer delivery a few weeks later. Was a good time :)
Lots of blood sweat and tears scaling from there...
A 4 axis CNC mill. It ended up at an auto supplier making key fobs for a major automaker (because I needed the cash more than I needed the tool at the time).
I have knit a number of scarves. They're kinda cool because I knit partial rows from each side. While they are rectangular in that the number of stitches across each row is constant, the tensions in the scarf make them wavy.
I made doohickeys to add homekit controlled dimming and convenient physical switching to my bedside reading lamps.
I am in the middle of making a farmhouse table out of walnut. It is very precise work that I am not used to.
I made a wifi controlled blender in college. 3d printed the frame, put a website on a small pi etc. used that thing for 3 years before i bought a new one
I just cut a walking trail through a stand of trees on our property, and I'm in the process of putting in a deer fence so my dog can run around and chase squirrels in those same trees without terrorizing the neighbours, he's still learning his manners and he needs to run off leash like ten times a day.
This is already by far the coolest thing I've ever done, and I haven't even started with the light show.
I made an electric longboard a few years ago. Before they where popular, and you cant buy or legally use it in germany anyways.
It worked pretty well. I guess it could drive s.th. like 35 km/h for 10 km. It even had brake energy recouperation. A higher topspeed would be no problem, but its already very dangerous^^
It was a very simple design. Just a brushless outrunner attached with friction to one of the wheels.
I helped build several FRC[1] robots when I was in high-school, and now as a mentor for my team, who were able to make it to the international FIRST Championship for the first time this year
A ceramic millennium falcon. The idea was stuck in my head for a while and was keeping me awake at night ( yes I know it is crazy but I am jus saying what happened behind the scene )
I designed and sold a faceplate mod for the Behringer Neutron semi-modular synth. I sold a few thousand before shutting down in late 2020. There were two varieties - here's what they look like (search Google for Behringer Neutron to see the stock look):
I am into boats, actually. I have built a plywood kayak-style boat, that I am not that proud of, but I am very proud of the 1965 Boston Whaler I restored. Looking for my next one!
Would also like to become better versed in the operation of outboards. I am looking at finding an old carbonated 2-stroke to rebuild.
It was a DIY pre-covid project. It was meant for me to locate my bike in an open-air parking lot meant for two-wheelers. The circuit wasn't perfect. Here are some videos/pics:
Rather more modestly - made a esp32 PWM fan controller that hooks into home assistant. Nothing wild, but it did open my eyes to the fact that I can duplicate most IoT stuff on my own terms despite being an amateur. And that in turn has takes it from "IoT - not in my house" to "yes lets do more IoT".
I made a kind of theremin based on an Arduino and cheap distance sensors (HC-SR05). It's basically a MIDI controller that emits CC values relative to the distance of the player's hands.
I've built some small boats and stuff, but this was a whole-nuther dimension Took about 11 months of pretty intense almost-every-day work by two people.
A bit late, but I built a BattleBot back during the original show days. Never finished/competed though - I was in high school and couldn't make anything competitive with my birthday money. Learned a lot about radio controllers and aluminum angle bars! Taught my younger brother and we battled in the driveway.
Somehow I’ve ended up making ceramics. I use OpenSCAD to turn 3D models into slices, laser cut templates from them, then use them to hand-cut and assemble the model. I’m not very good at it, which results in a hybrid look of machined and handcrafted I like.
I built a small alarm clock with 2 states: night and day, to try to prevent my daughter from waking us up at 6 in the morning! Just uploaded a small write-up here https://cosmith.fr/projects/nightbox
Some code was involved to optimize the layout of the pieces on the sheets of plywood they were cut out of, but that was maybe one percent of the project.
A lot of furnitures for our home.
Like a lot of software engineers, I have a thing for woodworking. I started with a footstool, then I made a simple cabinet, a mirror frame, cabinet with drawers, 3 wardrobes, a kitchen island, another footstool, shelves, a workbench, a desk, and some experimental stuff.
I learned PCB design from roughly nothing over the last 7 months to create a custom PCB that integrates with GitHub Actions for a CI/CD pipeline for my novel operating system's kernel test harness to test on bare metal.
It looks amazing and feels really good to have completed. Might do a write-up on it.
Nice, old school, none of that SMD stuff :) Very nice case you made too, I like the idea of using off the shelf cast boxes and then making them look super nice.
I 3D printed Arno Klein’s brain from a CT Scan at the Paul Allen Brain Institute in a basement on Capitol Hill back in 2012. It captured all internal folds and was quite interesting to watch it print and see the inside of his brain.
Cheers Arno, hope your Halloween adventures are still going strong!
Back in the days of the Amiga, me and a friend were in high school and we were obsessed with Formula 1GP from Microprose so we took a couple of joysticks apart and we built ourselves the pedals and a wheel with gear shifts. It was pretty trashy looking but worked remarkably well.
I made a 6 foot long LED staff with 1,500 LEDs. It had a huge custom battery inside it and it lasted for hours and hours. I got really into programming LEDs and making great patterns, but it was a lot of work keeping it running and replacing LEDs as they failed.
Remind me to stay on your good side. You don't happen to have 'poor impulse control' tattooed on your forehead, do you? Sovereign citizens with their own cruise missiles are not to be trifled with...
I welded a huge bike trailer out of old bikes and EMT. For the coupling between the bike and the trailer I used a two bike forks, and JB welded the hubs together to create a universal joint. It worked wonderfully and I could haul 20 or more bikes on it.
- a mini trailer for camping. It has drawers with cutlery and camping stuff and a roof top tent on top.
It's lightweight so I can move it easily in the campgrounds far from my car.
- a guitar from a kit
- fixed my garage sagging roof by lifting it up and rebuilding trusses
Fender 1957 Deluxe tube amp clone. Built the box, soldered the components (from a kit and a diagram), then upholstered it with tweed. Super fun and satisfying project, looks like a new (old) amp you’d buy at a store.
I used to be heavily into building terrains, physical dungeons and other props for tabletop gaming. I wish I still had my old pictures! At one point, I considered taking on commissioned work for castles, fortresses, modular tile-based dungeons...
I built a canoe out of plywood with no wood working experience. It was very difficult, and involved a lot more epoxy, sanding and clamps than I expected. But in the end I could float around Town Lake in Austin and adventure to snake island.
An entire 1000 sq ft condo -- was a 1920's hovel on the top floor of a walkup, now is a modern living space with a great layout, fantastic light, and all the amenities.
Took me four years of evenings and weekends while working full-time to fund it.
I'm glad you did too :) What also amazes me: the general quality of the work on display. There is probably some self selection going on there but every link that I've followed leads to something that a seasoned pro would have reason to be proud of.
A double decker bedside table for bunk beds so that both the bottom bunk and the top bunk have a bedside table for a light/alarm clock/ glass of water/book/ etc. super simple, but effective…
I made a volcano out of plaster of Paris. The cool bit was that for the eruption I used potassium permanganate in the volcano’s cone and poured glycerin on it to ignite the volcano.
Not sure if it counts but my Eurorack modular synth is definitly my most loved phyiscal thing and it’s kind of built (from modules). Still habe to get into soldering my own modules..
My siblings and I replaced my parents' rickety exterior stairs. It was super gratifying to make their house safer and save them thousands of dollars while having fun.
A pair of cargo pants. During COVID I learned to use a sewing machine and patterns. I made them the right length, material, and put pockets where _I_ wanted pockets.
It was an imaging system for cars that needed high throughput. Normally you would just have a lot of cameras all around the car, but they were very space constrained so spinning the car was the only way to get all the angles.
I make them out of inexpensive wood scraps, so they end up looking rustic. Basically, they would be a prototype for someone with actual Woodworking skills.
They all include a substitution cipher message and code wheel. They are usually single movement puzzles. The "Sweet as an Onion" cryptex required multiple positions to solve, and the recipient was never able to solve it, so I lean into the simple designs unless my friend is an expert puzzle solver.
I usually go for hidden pocket puzzles, but my current favorite design is a variant of the snake cube puzzle that assembles into a functional code wheel to solve the message woodburned into the blocks such that if assembled in a second configuration reveal an encrypted message and instead of letters, I used Cistercian numerals.
Each puzzle also tries to embrace the onion philosophy, where each layer is easy to peel, and leads to making the puzzle easier to solve. Clues are usually hidden on the object to eventually guide solvers to solving it instead of trying to frustrate or defeat them.
A few years back (2015 - ok, more than a few) I built a pair of RC tanks to demonstrate the use of ardunino communication libraries. While it was for our local code camp, the hardware build was the most challenging bit with the highest learning curve.
The "tanks" had shields for front, rear, and each side that took damage separately. A main cannon with switchable weapons did different amounts of damage based on how much energy the weapon used.
Different weapons had different types of simulated kick-back ... the rapid fire machine-gun type weapon had a rapid shaking kick back while the mega-super-weapon was a super whomp kick-back. I don't recall if I got around to implementing physical effects when your tank was hit.
Control was using hacked up thrift store-sourced PC joysticks. (and by hacked-up, I do mean hacked-up. Soldered directly to potentiometers and spliced into a controlling arduino that tracked tank status etc)
All controllers and tanks were mesh-networked using cheap 2.4ghz nrf24L01+ wireless (but not wifi) chips. My idealistic final vision was massive multi-player games with selectable features.
- large games with selectable friendly fire
- different damage consequences
- scrambling opponents weapons or drive systems, drive systems degrading as they took fire, flakey shields
- communicating with a central computer for viewing game progress and tracking stats
- vastly improved system information displays (vs the cheap LCDs)
- fpv camera with a HUD woulda been sooo cool.
I knew it was going to be a huge learning curve - I was familiar with basic arduino functionality but hadn't done much beyond basic sensor reading and light blinking. I had to learn how to integrate a LOT of hardware and deal with real world complications. (sunlight plays merry havoc when using IR as your weapon-shooting and shield-receiving) I started 3-4 months before the presentation date and (of course) was still swapping out hardware and tweaking software the night before.
†OK fine, it broke at a few points and I had to knot the ends together, but it's the principle that counts.
https://imgur.com/gallery/ljoJeal
I really wanted to make something creative for her, but I'm pretty terrible as an artist, so I instead applied a talent I do have: making 200 line Python scripts. Apparently the first to do this was an artist named Petros Vrellis, though I did come up with it independently.
Sadly, we've broken up since then, and we didn't remain friends. I do wonder what happened to it, I can't imagine she'd've thrown it out, but on the other hand it would be odd to have a physically quite large memento to a previous relationship hanging from your wall.