Friday, January 15, 2010
There are no monkey on this video (darn it) but there are a lot of other things. The quality is not the best in some of these, but the humor is still there. Some of them will crack you up. And if you want to read about high-as-a-kite wallabies in Sydney being blamed for crop circles, click HERE.
Posted by Michael at 12:01 AM
Sunday, January 3, 2010
When I was a boy I discovered the magic of growing crystals from various ingredients. That was shortly after I was disappointed when my Sea Monkeys didn't look at all like monkeys. And my X-Ray Specs didn't work like they were supposed to, either. So I started growing crystals in my little bedroom laboratory.
I used salt, sugar, and alum. Each of these composites will produce crystals with different structures. The salt crystals are always cubic. The sugar (which you could eat after they formed) are hexagonal with pointed ends. My favorite was the crystals produced with alum. In case you have a youngster, or a grandchild, this might offer you an opportunity for some quality time and a learning experience that could spark an interest in chemistry or science.
Just so you know, alum crystalizes in a tetrahedral form. The crystals form like two pyramids joined at the base.The photo above is of a chrome alum crystal. I'm not sure what chrome alum is, but the crystals you can grow from regular alum look just like this except they are clear instead of black. Below is a step-by-step procedure for turning common, white alum into beautiful, clear crystals that look like sparkling diamonds. What you need to do first is to create what is known as a super-saturated solution. More material (salt, sugar, alum) will dissolve in hot water than will dissolve in cold. The higher the temperature, the more will dissolve and the more saturated the solution becomes. So here we go . . .
Step 1: If you don't already have some, go to the grocery store and buy a box of alum. You'll find it in the baking section or with the spices.
Step 2: Place a sauce pan containing one quart of water on the stove and turn it on.
Step 3: As the water starts to heat, begin pouring the alum into it, stirring with a spoon as you add it. Not too much at a time. Make sure it's all dissolved before you add more. Continue adding the alum until no more will dissolve. Try to keep the water temperature just a little below the boiling point.
Step 4: After the water has cooled a bit, pour it into a a quart jar and leave it alone for a few hours.
If you've created a super-saturated solution, the alum will begin to form crystal within 24 hours. You will see them forming on the bottom of the jar like tiny diamonds. There will probably be several of them, so we want to remove a lot of them to give the others more room to grow. Otherwise you will end up with a "matt" of crystals on the bottom of the jar. And that's not what you want. We're trying to create three or four really nice crystals.
Step 5: In a day or two your crystals will have grown to 1/8 inch or so across. Get a long pair of tweezers and remove all of the small crystals. If you don't have a long pair of tweezers you can pour the solution carefully from your incubator jar into another container and then remove the crystals with a spoon. Examine them and pick a half dozen or so of the biggest or best-formed ones and set them aside. Then pour the solution back into the jar and add your selected crystals. Try to arrange them so they're not touching each other.
Step 6: You'll need to turn your crystals every day so that the alum is added to each side equally.
IMPORTANT NOTE: Do not place a lid on the jar. If you do, the water can't evaporate.
Evaporation is important so that the solution remains at a constant state of saturation and your crystal continues to grow. If you notice that your crystals look smaller than they did the previous day it means the saturation level has decreased and the water is dissolving the alum from your crystals. If this happens, remove your crystals and create a new solution as explained in Step 2. But don't place your crystals back into this new solution until it has cooled to room temperature. Otherwise it will dissolve. Keep making new solutions as your crystal continues to grow until you get it to the size you want. Then you can take it out of the jar and put it on display. The air won't hurt it. Just don't let it get wet because alum dissolves in water in both the powdered and the crystal form.
Having written this, it makes me want to do it again. I'm going to go buy some alum. Have fun! If you have any questions, leave a comment and I'll try to answer it.
Posted by Michael at 9:00 AM