I make content about 3D printing, electronics, homemade windmills, and Arduino-related projects I make. I really enjoy documenting my projects for my own records, but even more than that, I enjoy showing people what I build and how I did it, in hopes that I can inspire people to do the same and learn new skills.
I find that young people tend to have this sense of being able to do or be anything. Unfortunately, it seems to me to be the case that this mentality of learning and willingness to make mistakes is often completely absent in people before long. My goal is to bring back that sense of empowerment that comes from learning new skills and creating new things!
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Feel free to email me at christophersfactory@gmail.com.
Why can’t it be like a slug or snail. Even snakes are able to move in directly straight lines buy rolling muscles along their stomach. Similar in motion to how millipedes walk!
11 weeks on Etsy, So far I have 12 products 280 orders, 8k on sales, 282 items sold, and probably 4K in profit after I take into account filament costs. I can see how it feels like a grind but I’ve been refining my process and products. I think I’ll reassess at a year whether or not it’s worth it.
And that if you had a sandworm go very very far down and start a rocket shipping its way to the surface it could probably do it towards the men’s size getting enough speed to fucking go like seven 800 miles an hour straight up into the air and become a homing missile, not a homing missile missile and intercontinental missile intercontinental sandworm
No, The sand worms are autotrophic and somehow produce a massive amount of energy so much so they have a literal fire inside of them from the chemical reactions. They use this energy to vibrate their scales. If you apply enough energy to a solid particulate then it behaves like a liquid. So in short, the sandworms use an incomprehensible amount of energy to vibrate literal tons of sand into psudo liquid state. And then they just swim through it like a sea snake.
6:40 the reason is because those are radial bearings. They're design to be able to take force in the radial direction (think of where they go in a skateboard). However, they are not designed to take forces that are directed along their axis of spin such as thrust forces (Think of an office chair that swirls around with you on top of it). For this, you want thrust bearings (hence the name). These are designed to take this kind of compression force along the axis of spin.
Couldn't they just move like an earthworm? Small contractions and expansions with bristles faced rearward. Small fast (relatively) contractions would also explain the vibrations.
Could you provide some information on how many watts could a fullbridge rectifier of yours operate maximum? Also what is the rating of that small chip rectifier? If you were to make 3 phases, could you connect the discharge of the 3 phases at the end? Thanks in advance, your video is very informative and thoughtful.
Dont recommend using set screws to secure bearings you will deform the outer race and make it oval. It's better to use a clamping style collar or press fit.
The scales on the bottom of a snake's stomach open and close and pull them forward they don't just slither along the ground their stomachs scalls open and closed and pull them along
tks for your video was really useful, i had to lear this bc i need it for my final proyect about product design and my idea had the top bottom screwed, my teacher approved and love my proyect idea thanks!!
No im fairly sure its like a whale moves in water. In water because of the pure mass of whales, water is heavy around them so they have to exert a lot of energy just moving through it, making them hungry all the time.