Update to Experiment 1: Hard Drive Sander

As I said in a previous post, I ripped apart an old hard drive and made it into a disk sander.  My power supply for that sander finally arrived!  I tried plugging the sander in and then plugging the PSU into the wall while its switch was on, but nothing happened.  After some frantic hair-pulling trying to figure out if the supply was dead, I found a solution on the Internet.  PSUs need a signal from the motherboard to actually turn on, even if they are plugged in, so jumping the green wire to a black wire on the motherboard connector fakes that signal.  I tried this, and amazingly, the HDD spun up and became a high-speed sander!   I was able to nicely sharpen a railroad spike into a chisel for chopping stuff.  I also sharpened a wooden dowel into a conical point and gave a regular pencil an unnaturally sharp point.  I noticed that after 2 minutes, the HDD spontaneously shut down.  The PSU's fan still was spinning, but the HDD consistently shut down.  However, I can cycle the supply by flipping the switch on and then off to fix the problem.  I believe that the HDD figures out that there are no signals from the motherboard and then decides to shut off.

Experiment 6: Hot Ice

In traversing the wide Information Superhighway, I found NurdRage's very neat hot ice video.  I used his homemade method and used 1 liter of clear vineagar to 3 tablespoons of baking soda.  His method worked very well.  When I boiled it down, I did not notice a floating crust but rather a quick-forming rim of crystal around the pot.  Once I saw that (it took a while), I immediately took the sodium acetate trihydrate (the end result) off the stove and cooled it in the refrigerator.  When I stuck my finger in to see if it was cold, it froze!  I was happy that I had made it work on the first try.  After I microwaved it for 30 seconds and cooled it again, I placed a crystal of the sodium acetate trihydrate in and it froze very nicely and beautifully.  My solution actually turned out to be quite clear.  The experiment gave a warm feeling of satisfaction and was also quite warm physically, due to the exothermic freezing reaction.

Experiment 5: 9V Battery Clips

Cool little thing I discovered - by peeling the casing back on a 9V battery, one can salvage a clip for connecting other 9V batteries to circuits - sort of like battery clips commercially available.  I did this by carefully twisting and rolling the metal case away to reveal the six small batteries inside the larger 9 volt.  The little terminal tab at the top popped out, and I was able to solder wires on to the backside, like so:
As you can see, it is just the top of a dismantled 9V battery with wires soldered to the back, but it works quite well for attaching power to circuits.

Experiment 4: Carbon Rods

If you want to do electrolysis to make sodium hydroxide or do other stuff, carbon rods are sometimes used as electrodes, but burning pencils to get their rods only gives thin, easily breakable clay containing pencil leads (I did that).  If you have a battery (like a AA or D-cell) that says "Heavy Duty" or "Super Duty", it probably has a carbon rod inside.  I took apart a heavy duty AA and peeled apart the positive side to reveal the carbon rod.  I carefully removed the sides of the battery and got out the rod.  Then I washed it up to remove the weird black stuff that surrounded the rod.  By the way, the carbon rod is in the center, not on the sides.  However, it turns out that I need a membrane to electrolyze aqueous sodium chloride into sodium hydroxide, so I will not be getting there quite yet.

Experiment 3: Zinc Ring Casting

So I have been interested in metal casting for a while and have made some blobs and large ingots, but I wanted some real results.  I made some casting sand using 1 part ground cat litter (try to find one that only has Bentonite clay in it) to 9 parts regular play sand.  I ground the cat litter using my mom's kitchen blender; if you do so, wash it out well or she will murder you with a butcher knife.  I probably should have used fine silica sand, but play sand was what I had on hand from building my large metal-melting furnace.  Regular play sand will give you coarse results.  I added enough water so that it stuck together but was not sopping.  I then basically followed this, but I did not add any vents/air holes for the casting.  My flasks were made by cutting a frozen juice can in half; you can definitely improve this if you do this experiment.  Having made my ring mold (using my dad's wedding ring), I used a soup can as a crucible and a propane torch to melt some zinc pennies (date after 1982) and skimmed off the copper coating.  With a smooth action, I poured the metal into the mold.  I am exceedingly happy with the results.


The image at the top of the post is the newly removed casting.  I cleaned it up with a Dremel tool and a hand file and then sanded it smooth.  As you can see from the two other pictures, the ring actually resembles a real ring and looks fairly nice for a first casting.  It even fits on a finger and does not irritate the wearer!

Experiment 2: Lithium Battery

Lithium is an alkali metal, which means that it is fairly reactive with water and air.  Some batteries have lithium in them, so following NurdRage's tutorial, I set about extracting lithium from batteries.  First I remembered that some coin batteries say "Lithium", so I found two of those with the word "Lithium" printed on them.  I took one apart and dumped a metal mesh that I thought was lithium into some cooking oil to keep it from oxidizing with the air.  I then dumped the rest of the battery into some water and it fizzed.  Thus I learned that the mesh was not lithium; the other part was.  With the second battery, I was more careful and found some reddish stuff on the inside of one of the polarities and isolated that in the oil.  When placed in water, this reacted quite well.  However, I breathed and then started coughing.  Later, I found a battery pack that had two AAs in it that were lithium.  These were the type NurdRage took apart.  I unwrapped one of them and found a nice roll of lithium.  I placed that under the oil and reacted a small part with water.  Fizz!!!  Once again, I breathed and then commenced coughing.  To remove the irritant, I opened some windows and blew the air out with a fan.  From my dad's research (he is a chemist), we decided that the irritant gas is probably hydroxide, so if you react some lithium, you may want to be wary of that.

Experiment 1: Hard Drive Sander

This experiment basically turns a Hard Drive Disk into a Disc Sander.  I had an old 160 gig hard drive that frustratingly did not work, so I took it apart.  I had originally considered making a mold and casting my own Torx screwdriver in metal to undo the uncommon screws, but I found a Torx head that fit, so I did not have to cast my own.  If you make a HDD sander, excercise patience when removing the components, because I am sure you do not want to break the important stuff like the motor.  I left the motor and platters intact and then rearranged the platters so that they were directly on top of each other, as to add more support.  I cut some sandpaper to be the right size and then sandwiched that between the top platter and the washer on top of the platters that held the stack down.  I tested the sander (before it had sandpaper on it) with a PSU I already had and the platters spun up, so I must have the right kind of "dumb" drive, one that spins up just by plugging into the PSU Molex connector.  I will be purchasing another PSU to act as a permanent power supply.  When I get that and hone some blades, I will make an update!

Intro to Experimentation

Hey Reader!

This post is the intro to many others- I have decided to record all my mad experimentations for all to see.  I am doing this for a number of reasons:

  • The Information Superhighway has too many unanswered questions that go nowhere.  I am not going nowhere with these posts.
  • Who knows if the writer of the tutorial you were reading didn't actually do the experiment?  I certify that I have done all these.
  • I need to get this info out for others to use!  In line with the maker spirit, share knowledge!
Have fun reading, and only use as much caution as you are comfortable with.