Friday, May 11, 2007

Vaporizor


Here is a great article on vaporising marijuana for medical purposes. Vaporizers are great and I recommend any regular user should try it out. Besides the added medical benefit of not getting all that tar and combustion products (emphysema and bronchitis) and carbon monoxide (coronary heart desease). Here is a like to a great little vaporizer that is small portable and uses a lighter as a heat source: The Ubie


New Studies Destroy the Last Objection to Medical Marijuana
By Bruce Mirken, AlterNet


Anyone who advocates for medical marijuana sooner or later runs into arguments about smoking: "No real medicine is smoked." "Smoking is bad for the lungs; why would any doctor recommend something so harmful?" It's a line of reasoning that medical marijuana opponents have used to great effect in Congress, state legislatures, and elsewhere. Indeed, the FDA's controversial 2006 statement opposing medical marijuana was couched in repeated references to "smoked marijuana."
But new research demonstrates that all those fears of "smoked marijuana" as medicine are 100 percent obsolete.
The smoking argument was the closest thing to a scientifically meaningful objection to medical marijuana. While marijuana smoke, unlike tobacco, has never been shown to cause lung cancer, heavy marijuana smoking has been associated with assorted respiratory symptoms and a potentially increased risk of bronchitis. That's because burning any plant material produces a whole lot of substances such as tars, and carbon monoxide that are not good for the lungs.
Nevertheless, inhalation is clearly the best method for administering marijuana's active components, called cannabinoids. Cannabinoids such as THC are fat-soluble molecules that are absorbed slowly and unevenly when taken orally, as in the prescription THC pill Marinol. This means that Marinol typically takes an hour to two hours to work, and dose adjustment is nearly impossible. Patients often report that when it finally kicks in, it hits like a ton of bricks, leaving them too stoned to function.
For that reason, The Lancet Neurology noted a few years ago, "Smoking has been the route of choice for many cannabis users because it delivers a more rapid 'hit' and allows more accurate dose titration." Because the effect is nearly instantaneous, patients can simply take as many puffs as they need, stopping when they've achieved the needed effect without excessive intoxication.
So far, no pharmaceutical product -- not even Sativex, the much-touted marijuana spray now marketed in Canada -- achieves this combination of rapid action and simple, accurate dose adjustment.
Back in 1999, the Institute of Medicine's White House-commissioned report on medical marijuana conceded marijuana's medical benefits, saying that what is needed is "a nonsmoked rapid-onset cannabinoid drug delivery system."
The new studies -- one from the University of California, San Francisco, and the other from the University at Albany, State University of New York -- confirm that such a system is here. It's called vaporization, and has been familiar to medical marijuana patients for many years, but few outside the medical marijuana community know it exists. Unlike smoking, a vaporizer does not burn the plant material, but heats it just to the point at which the THC and the other cannabinoids vaporize. In the Volcano vaporizer tested at UCSF, the vapors are collected in a detachable plastic bag with a mouthpiece for inhalation.

The UCSF study, conducted by Dr. Donald Abrams and colleagues and just published online by the journal Clinical Pharmacology and Therapeutics (to appear in the journal's print edition on May) compared a commercially available vaporizer called the Volcano to smoking in 18 volunteers. The subjects inhaled three different strengths of marijuana either as smoked cigarettes or vaporized using the Volcano.
The researchers then measured the volunteers' plasma THC levels and the amount of expired carbon monoxide, which is considered a reliable marker for the unwanted combustion products contained in smoke.
The two methods produced similar THC levels, with vaporization producing somewhat higher levels, and were judged equally efficient for administration of cannabinoids. The big difference was in expired carbon monoxide. As expected, there was a sharp increase in carbon monoxide levels after smoking, while "little if any" increase was detected after vaporization. "This indicates little or no exposure to gaseous combustion toxins," the researchers wrote. "Vaporization of marijuana does not result in exposure to combustion gases, and therefore is expected to be much safer than smoking marijuana cigarettes."
A second study, by Dr. Mitch Earleywine at the University at Albany, State University of New York, involved an Internet survey of nearly 7,000 marijuana users. Participants were asked to identify their primary method of using marijuana (joints, pipe, vaporizer, edibles, etc.) and were asked six questions about respiratory symptoms. After adjusting for variables such as age and cigarette use, vaporizer users were 60 percent less likely than smokers to report respiratory symptoms such as cough, chest tightness or phlegm. The effect of vaporizer use was more pronounced the larger the amount of marijuana used.
"Our study clearly suggests that the respiratory effects of marijuana use can be decreased by use of a vaporizer," Earleywine commented. "In fact, because we only asked participants about their primary means of using marijuana, it's likely that people who exclusively use vaporizers will get even more benefit than our results indicate, because no doubt some in our study used vaporizers most of the time but not all of the time."
In a rational world, the government officials objecting to medical marijuana based on the health risks of smoking would greet this research with open arms. They would join with groups like the Marijuana Policy Project in spreading the word about this important, health-enhancing technology.
Don't hold your breath.

Nitrogen Triiodide

Feeling the itching urge to blow something up? Here's a great method for making a little innocuous high yield explosive, Nitrogen Triiodide (Ammonium Triiodide). Don't forget your safty goggles!




1. The first step is to prepare the NI3. One method is to simply pour up to a gram of iodine crystals into a a small volume of concentrated aqueous ammonia, allow the contents to sit for 5 minutes, then pour the liquid over a filter paper to collect the NI3, which will be a dark brown/black solid. However, if you grind the pre-weighed iodine with a mortar/pestle beforehand a larger surface area will be available for the iodine to react with the ammonia, giving a significantly larger yield.

2. The reaction for producing the nitrogen triiodide from iodine and ammonia is:
3I2 + NH3 -> NI3 + 3HI
3. You want to avoid handling the NI3 at all, so my recommendation would be to set up the demonstration in advance of pouring off the ammonia. Traditionally, the demonstration uses a ring stand on which a wet filter paper with NI3 is placed with a second filter paper of damp NI3 sitting above the first. The force of the decomposition reaction on one paper will cause decomposition to occur on the other paper as well.

4. For optimal safety, set up the ring stand with filter paper and pour the reacted solution over the paper where the demonstration is to occur. A fume hood is the preferred location. The demonstration location should be free of traffic and vibrations. The decomposition is touch-sensitive and will be activated by the slightest vibration.
zSB(3,3)
5. To activate the decomposition, tickle the dry NI3 solid with a feather attached to a long stick. The decomposition occurs according to this reaction:
2NI3 (s) --> N2 (g) + 3I2 (g)

6. In its simplest form, the demonstration is performed by pouring the damp solid onto a paper towel in a fume hood, letting it dry, and activating it with a meter stick.
Tips:
1. Caution: This demonstration should only be performed by an instructor, using proper safety precautions. Wet NI3 is more stable than the dry compound, but still should be handled with care. Iodine will stain clothing and surfaces purple or orange. The stain can be removed using a sodium thiosulfate solution. Eye and ear protection are recommended. Iodine is a respiratory and eye irritant; the decomposition reaction is loud.
2. NI3 in the ammonia is very stable and can be transported, if the demonstration is to be performed at a remote location.
3. How it works: NI3 is highly unstable because of the size difference between the nitrogen and iodine atoms. There is not enough room around the central nitrogen to keep the iodine atoms stable. The bonds between the nuclei are under stress and therefore weakened. The outside electrons of the iodine atoms are forced into close proximity, which increases the instability of the molecule.
4. The amount of energy released upon detonating NI3 exceeds that required to form the compound, which is the definition of a high yield explosive.

Friday, May 4, 2007

Microwave Mayham


Got an old microwave oven laying around? Here are some fun things to put in it for hours of amusement.
Info from We-Man

1.
Take an old CD or CD-R and put it in the oven, standing up. Put it against a glass cup or so. Don't use any metal as a holder. It will look like the image shown below. Notice the difference in the pattern that will show up in the metal layer in the CD between a normal silver CD and a green or gold or blue CD-R. Make sure you don't inhale the gas that comes out of the CD. It's not too good for your health, so they say ;-] Note that the CD will be unusable afterwards !
This is actually what you see when you put a CD in your microwave oven. A closer look.
2.
Place a wooden tooth pick standing up in your oven and light the top so it burns slowly. I placed mine between the clip of a plastic pencil top. A cork will do fine too I guess. Matches instead of the tooth pick will also do but they will produce less spectacular effects. Now close the door and see what happens. You didn't expect that eh? Nice yellow / orange / green / blue fireballs going up from the stick. Uh,.... yes as you might suspect, your oven will become a bit black inside here and there. But I had no problems cleaning it up. Take care that the plastic inside your oven won't melt because of the burning stick (the plastic on the top of my oven hangs down a bit now ;-}. I also tried pieces of burning charcole and a burning piece of a beer-mat. Materials like that also work (they only need to glow, not nurn) but the tooth pick works best. The actual flame doesn't have to be big for good effects.
Fire balls like this one shoot up out of the tooth pick. 2 fire balls with a long shutter time. 1 very nice fire ball with a long shutter time. 1 fire ball with a long shutter time.
3.
The light bulb in the microwave oven. You can take an old one, it doesn't have to function anymore to give the desired effect. However, the glas has to be intact so the gas is still inside. I noticed that small bulbs won't work. I used a 230 V / 60 W one. Again you won't believe what you see ! All kinds of colors coming out of the bulb. But you should take care here. Sooner or later your bulb will explode. I tried mine for 10 seconds, let it cool down (probably not enough) then I tried it for another 10 seconds, let it cool down (probably not enough again) and then after 2 seconds after turning it on again it exploded inside the oven. The door of my oven was way thick enough, so all glass stayed inside. It's quite easy to clean up the glass and I don't think it will do much harm to your oven. However, my second lightbulb never exploded! The glas gets very hot but it won't blow up! From 2 people I received the tip to put the bulb in a bowl of water in the microwave oven to cool it down so it won't explode. It works but the bulb might receive too little energy to light as brightly as it does without water around it. I haven't tried small fluorescent lamps and flash bulbs from a photo flasher yet (because I don't have them) but I expect them to be very nice, too. If you try one, please let me know the results.
glowing light bulb (this is just a short sight; if you watch it for a few seconds you will see almost all possible colors.
4.
You got 3 minutes left? Maybe this experiment is one of the most useful ones listed here. Go visit the Amnesty International website, click "take action" and sign with your name and email address. If you also leave your phone number you will receive an SMS message every now and then to which you can reply, to sign a petition against torture. Thank you.
5.
For this experiment you need some tinfoil. I advise you to put an old glass plate or so on the bottom of your oven because the foil will get very hot. In fact, it gets so hot that it melted right into the glass plate that belongs to my oven... Now cut out a piece of about 22 x 1 cm and fold it like shown below. Wrap the two ends tight into each other.
Again, make sure not to turn on the oven for more than 10-20 seconds. Especially experiments with tinfoil will ask a lot of power from your oven and it might get hot, so let it cool down between your sessions or you might damage your oven. I didn't get my eyes hurt but I don't think looking too much into the light is good for your eyes. I expected to have welding eyes in the evening but I was lucky. As with welding, a lot of UV light (you don't see light of this short wavelength) comes free which can damage your eyes.
Burning and crackling tinfoil. Put some old glass plate or so underneath it because it will melt the glass.
6.
In the U.S. used to be a program called "Mr. Wizard's World", in which this old guy would do all sorts of scientific nonsense... And one of the programs, he put a flourescent in the microwave... Although it sounds like fun, the results aren't really that exciting.. It just lights up, like a flourescent light is supposed to. Of course, this makes sense, since the material on the inside of the glass is there to turn the ultraviolet light into visible light in normal operation, and placing it in a microwave just makes this material act in its normal way, lighting up... (emailed by Michael Parker) I can tell you a bit how it works, I think. In a microwave there's no ultraviolet light. Just radio waves at 2.4 GHz. Normally the flourescent light will transmit ultraviolet light and the white powder will make this visible light. This happens because electrons of the atoms in the powder will get excited because of the exact amount of energy (or: the exact wavelength) they receive from the ultraviolet light. When (after a short while) these electrons fall back into their lower orbit, they also transmit light, but then in the visible range, but only 1 color. So they put several different kinds of atoms in the powder, that will transmit different colors so we will see white light. Appearently, in a microwave the gas in the tube gets energy from the microwave waves (probably because the gas is conducting) and starts transmitting ultraviolet light and the powder will transmit light. Easy.
7.
This one is a little less exciting, too, but it prodices a lot of light. I took a small old neon lamp (like the ones in swithes, electrician's screwdrivers etc.). They are ment for use at 60 to 90 Volts. Normally they are used with a large series resistor. For this you just need the glass lamp. I experimented a bit with it and it seems to go best if you twist the wires into eachother and put it in (again) tinfoil. If you do not put it in tinfoil, the ends of the wires will burn up and will shorten the wires. See the left picture.
This is how I did it.
See how much light comes out of such a small lamp. Mine didn't explode, not even after 20 seconds !
8.
Last week I demolished an old laserprinter. Most laserprinters and photo copiers have a lamp inside which is not there for the light but only for the warmth. Usually they are hudreths of watts and very long and thin and located inside the drum (a rubber roller). This is how mine looks like:
This is what the lamp looks like. So I thought, hey, why not put it in the microwave and see what happens (something a real fan of this page should think this too whenever he/she gets his/her hands on something that might do something funny inside of a microwave). Well, this is what it does:
It gives a bright light. And later on the left end of the wire (lower left) starts to burn (inside the glass).
9.
My former student flat fellows discovered the Christmas tree ornament in the microwave ! It's pretty much like a CD but then it's not flat but a 3D glowing ball. Simon Oosthoek made this picture with his new digital camera:
Christmas tree ornament in the microwave, a beauty, isn't it?
10.
A former student flat fellow (Simon Oosthoek) tried a small TL tube in the microwave and it looks nice:
This is what the setup looks like. And this shows how nice it burns :-)
11.
A lot of people wrote me to put a bar of soap in the microwave. And I did :-) After 3 minutes the thing was about 5 times it's original size!
This is what the several "larval stages" look like.

Lock Picking 101


Have you ever just really wanted to get into something and/or have an insatiable urge to see whats behind a door only to have your dreams quashed by and annoying lock? Well, if so then this post is for you. Follow the link below to the MIT guide to picking pesky little locks and never let your curiosity be disappointed again!