Helicopter light painting continues to snuff out physics lesson on your brain

May 14, 2012 By Leave a Comment

Cool picture, huh? Wait until you see the video footage of this LED-adorned RC helicopter flying on a dark night. But this isn’t an art project. Analyzing the long-exposure photography turns out to be a great way of clearing up some of the physics of flight which otherwise are not at all intuitive. The helicopter used here has different colored lights on the nose and tail, as well as lights on the rotors.

Depending on how the aircraft is moving, different 3D spirography is captured by the camera. When you zoom in on part of the flight path it becomes clear that there are wider arcs on one side of the fuselage than there are on the other. This has to do with the forward progress of the aircraft and the rotation of the blades. The phenomenon is well known by helicopter enthusiasts, and accounted for in the design. But what we didn’t realize is that it actually translates to a theoretical speed limit for the aircraft. Our childhood love of Airwolf — the TV helicopter that could outrun jets — has been deflated.

You should remember the helicopter physics videos featured here last month. This is the latest offering and we’re still wanting more!

[Read more…]

Filed Under: featured, led hacks, toy hacks Tagged With: , ,

Recycle lithium cells by building custom flashlights

May 14, 2012 By Leave a Comment

This isn’t a brightest flashlight in the world type of hack (but it does manage to push about 1000 lumens). [Stephen Webb] is finding a use for leftover parts by building his own simple LED flashlights. As you can see, he uses PVC parts available at any hardware or home store. These are a good choice; they’re cheap, light weight, resilient, designed to be water tight, they easily thread together and have connectors that reduce the diameter of the fittings.

The electronics use standard size cylindrical Lithium cells. These are found in many types of Laptop and Power Tool batteries. Often when one of those battery packs bites the dust it’s an issue of one or more bad cells. [Stephen] desolders the cells, and reuses the good ones in this project.

We didn’t see any mention of a recharging technique. Does anyone have any advice on how to top these cells off if they’re not in their original power pack form?

Filed Under: green hacks, led hacks Tagged With: , , ,

Designing a self-replicating milling machine

May 14, 2012 By Leave a Comment

For his senior design project at Swarthmore College, [Julian] decided to build a metalworking equivalent to the RepRap. [Julian]’s final project is a self-replicating milling machine, and hopefully giving some serious metalworking power to all the makers with CNC routers and RepRaps out there.

At first glance, [Julian]’s mill doesn’t look like something you would find in a machine shop. The machine is built around a tetrahedral machine tool frame, giving the machine an amazing amount of stiffness with the added bonus of a degree of self-alignment. The spindle and motor are off-the-shelf units, but the entire bed assembly is made by [Julian] himself.

Right now, [Julian] still considers his project a very early prototype; there’s still a bit of chatter issues he’s working out, and the cost of the finished machine – about $1200, not including many hours of fine tuning – means it isn’t as competitive as other options. Still, [Julian] made a mill from scratch, and that’s nothing to scoff at.

Filed Under: tool hacks Tagged With: ,

Hackaday around the web and into the future

May 14, 2012 By Leave a Comment

Like everyone else, we’re scattered all over the web. We would be silly not to be getting our information out there in as many ways as we can manage. We promise that the site always comes first, but you can also find us on Facebook, G+ (yes, we’re approved this time), twitter, and we even have a flickr group where people post pictures of their projects!

We’ve got some stuff planned for the near future that we’re excited about too.

1.We’re working behind the scenes to bring out a new template for the site. This will allow us to clean things up a bit and hopefully make browsing a little easier (searching too!). Don’t worry, we’re not changing the logo.

2.We are also planning on starting some “show and tell” sessions on G+. We love what Adafruit has been doing with theirs, and we’re hoping to join in on the fun. We realize some of you are opposed to g+, so feel free to offer other solutions to do the show and tell, we would be happy to hear them. They will be recorded and linked on the site here, so you can follow along even if you can’t join.

3.We’re bringing back the store! This time, however, we’ll have a full spread of stuff. We’re not making it in our garages anymore. For now, it will be clothing and accessories, but we’re considering doing some electronics and tools in the near future as well.

The writers are also very busy with things on the web. We’re not always locked to our keyboards slaving away. If you want to be able to follow along with us, you can find our information after the break.

[Read more…]

Filed Under: news Tagged With: , , , ,

Improving a software defined radio with a few bits of wire

May 14, 2012 By Leave a Comment

Impressed by the recent advances in the software defined radio scene, [Jason] picked up a $20 USB TV tuner dongle to check out his local airwaves. Unfortunately, the antenna included with the little USB dongle is terrible at receiving any signal other than broadcast TV. [Jason] wanted to improve his reception, so he got some wire and made his own discone antenna.

The discone antenna is ideally suited for [Jason]’s setup – properly constructed, it’s able to receive over the entire 64 to 1700 MHz band the RTL-SDR dongle is able to read. To construct his antenna, [Jason] checked out [VE3SQB]’s list of antenna design programs, got the dimensions of his antenna, and set to work attaching wire to PVC pipe.

The antenna is a massive improvement over the stock antenna included with the TV tuner dongle. After mounting his discone at the far end of his back yard, [Jason] started picking up a few blips from the transponders of passing aircraft.

Filed Under: radio hacks Tagged With: , ,

Mapping the motor cortex

May 14, 2012 By Leave a Comment

[Bruce] sent us another fantastic final project from the ECE4760 class at Cornell. What you see above is an array of 36 near infra red LEDs shining into this young man’s brain for the purpose of spectroscopy. Light bounces back differently based on brain activity (blood flow). For this project, they are mapping their motor cortex and displaying it on a PC using a java app. You can see the entire rig, as well as the readings in the two videos after the break.

When this tip came in, one of our writers,[Jesse Congdon], chimed in as well.

hey I actually used to work in this as an intern, at Upenn. two frequencies of near infrared light are used that both penetrate skin and bone, one bounces off of blood in general and the other bounces off oxygenated blood. Since your brain actually regulates the flow of blood to parts that are in use you can see brain activity by looking at blood flow, but then you also need to see if the brain is actually using that blood, so oxygenation gives you a full picture. The frontal cortex is a nice place to measure cause there is no hair on that portion of the skull, and it gives you emotional responses and the “aha!” moment when you figure out a problem.

One article from way back said the system was going to be used as a lie detector, since when you lie you think about the truth and the lie simoltaneously and show an increase in activity.

It’s tough though to categorize a response since you can’t really establish “base line” activity by turning off the brain

[Read more…]

Filed Under: classic hacks Tagged With: ,
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