Calluses on your Soul

  For the first time in a long time I am willingly submitting myself to the scrutiny of others and exposing my ego to damage. Today marks the day when I make my official first attempt at writing, and not the usual engineering or technical papers that I tend to be involved in. A BOOK, a novel, a long story, whatever you want to call it, I'm attempting to write one. I have kept it a little secret for the past few months because I wasn't sure if what I had was worth anything or if it would just fizzle out. Apparently it has not fizzled, I have been working in the spare time that I have, an hour or two here and there, and have come up with a plot line, seven to ten primary characters, the sketched outline for the first six or seven chapters and the primary ideas for approximately seventeen chapters. The idea came to me, as ideas do to many people, in the shower. I had been thinking about the show Heroes which was short lived and jumped the shark almost after he first season was over in addition to pondering the feasibility of a type of generator I had heard about a while ago and came up with a cool idea: What if there were bio implantable generators? Weird right? then everything started to fall out, the main character, what would happen to her, how it would happen, all the good stuff that make a story. 
  For the next couple of days every chance I got I kept writing, not on the actual chapters, but background. Character names, story flow, actual ballistics and medical condition research, genetics research, in a short time I had a binder and notebook with hand written notes, typed pages and diagrams. Its been a lot of fun so far.
  Recently I had my wife Dr. Maureen read the prologue. The verdict? Amateurish, she didn't really like the stories of that type, not extremely well written. I was crushed. The person I had counted on to give me words of encouragement had eviscerated me instead. [WHAT THE WHAT? I did no such thing. -Ed.] At first I was a little shocked but then she told me she was comparing me to actual written work, stuff that had been published. She also said that she had read stuff like this on the shelves. Keeping in mind that I'm not an author by nature and I was a bit more encouraged. I set about re-writing the prologue and I feel its better now, in fact ready for (queue drum roll) EDITING
   I knew I'd reach the point where self editing was not enough so I decided that I would need to find a person who did this for a living. I checked on line and there are plenty of places that will do it but they want you to buy some sort of editing/publishing deal usually and they mostly deal with paper publications. So I went looking for alternatives and found some. Which leads me to today. I have just sent the Prologue and three chapters out for editing. I have yet to decide how I want to release it, there are so many options. I guess it depends on whether the thing stinks like last weeks fish or not. I think, however, I will release the Prologue for all to read and comment on when as soon as it's ready. 

Familiarity breeds contempt (Or why I'm Like Julia Child)

Every now and then something happens in your life to make you realize that you are not invincible, that no matter how well you plan or how prepared you are, circumstances can arrive that can toss your well ordered life into complete disarray. Something like this happened to me a little less than three weeks ago. Now you may be wondering why someone would wait three weeks to write about an event of this magnitude, aside from the glaringly obvious reason that I don't post much. Well that was one of the results of life kicking my ass.
The day was going so well, we were at a dual birthday party for my niece and nephew and my sister-in-law was getting lunch ready (Home made chili and pulled pork, mmmm). They were finishing with the garnish for the chili which was to be scallions and shredded cheese. I offered to help with the scallions. Some of you can guess where this is going. To make a long story short, I almost cut off the tip of my finger. Standing at the sink, telling my mother quite calmly that I had cut my finger and would shortly be going to the hospital. I turned to inform my brother, who had come over to see what the problem was, that I would probably be going into shock in about 30 seconds or so. I then proceeded to nearly pass out. When the excitement calmed down a little, I regained enough presence of mind to bandage myself and have someone drive me to the hospital.
Which leads me to possibly the fastest ER visit in the history of Man. I was at the hospital, admitted, treated and released and back at the party in about 2 and a half hours. This becomes more amazing when the drive time from the house to hospital is about 20 minutes.
Now for the amazing part. People take a lot of what medicine can do today for granted, but lets take a minute and appreciate what was done. I had sliced the tip of my finger almost off with a knife sharp enough to cut through fingernails without breaking a sweat. It was literally hanging on by a few millimeters of skin. Here I am three weeks later and my finger tip is attached. My FINGER was reattached with NEEDLE and THREAD. This is really cool. To give you perspective, here are some wonderfully gruesome pictures.Fair warning, these are a little gross.

This is a nice side view where you can see all four stitches that I got. I believe that it is worth mentioning here that these stitches were done by a 4th year med student and apparently she does a wonderful job according to my GP.

As you can see a good portion of the finger nail is now gone, having been removed by the wonderful doctors at the ER after my digital block. The mess where the nail bed should be is actually caused by gause stuck to the finger. I did not know this at the time the photo was taken.

Lastly you can see here that the cut went pretty much all the way through the finger> It was only held on by the small bit of skin at the very tip of the finger. Let it be known, when people say Cutco knives are sharp, they ain't kidding around. Well, that about wraps it up for this episode of gruesome pictures, tune in next week when we'll be showcasing what happens to a toe nail when you drop a 2 pound shower head on it.

Who would have guessed?

Apparently Peter Gabriel is a closet nerd. Two weekends ago The Boss went to a Peter Gabriel concert which was good according to him. But, the best part of the concert was not the music, the best part was a plug that Mr. Gabriel put in for something that is quite near and dear to the heart of The Boss and the soul of our company. These are not his exact words, but Mr. Gabriel said:

"Have you heard about some crazy scientists over in California? Apparently they are very close to making a fusion reaction in a laboratory setting, its something called the NIF project. They use these really big lasers and hit a small pellet of fuel to create Fusion. This is a really great thing, if they can get this to work this has the potential to create un-imaginable amounts of energy and could solve many of the earths energy problems, in addition to destroying many of the earths stores of nuclear material."

While I can not confirm the last portion of the statement, I can say that this is indeed what is happening, being intimately involved with this project my self. The science, physics and physical aspects of this project are really quite interesting. The premise is to use about 200 laser beams all focused on the same target. This target contains Fuseable material (usually an isotope of hydrogen), by increasing the temperature of the sample with those lasers it is possible (in theory) to force the atoms to fuse together. So what you say? Well Fusion has a much higher energy yield than Fission which is what happens in a Nuclear Reactor. Fission works by breaking apart unstable high Atomic weight atoms, Usually U235 or U238. When these atoms split They form two new atoms, BUT the weight of these two atoms when added together does not equal the original weight of the Uranium atom. The excess weight is converted into energy. Each split makes a set amount of energy dictated mostly by the mass difference between the uranium and its fission products, about 202MeV. There is another way to generate energy using the following Nuclear binding energy curve.

Uranium is far out to the right, and when it splits you move up the curve to the left. Fusion is better, it usually starts with hydrogen far to the left, when you fuse it you get a helium atom, some neutrons and energy. When you fuse an atom, you move up the energy curve to the right. At first look, at the released energy, it would seem fission is better (220MeV per reaction vs 4.03MeV per reaction for Hydrogen fusion). But if one takes into account the energy released per unit mass, the fusion reaction is about 5 times more energetic and doesn't have all the nasty nuclear waste products at he Fission does.

So the upshot is Fusion created a lot more energy using the same amount of fuel mass with less nuclear waste products than fission. This is not to say it is without its drawbacks, but if this works we'll have a limitless amount of energy at out disposal.

Thanks to Wikipedia for the chart above.

Hook 'em while they're young

In the fall of 2010 The Wife, Child1, Child2 and I met some friends in Boston for the day. After going to a museum or two, eating lunch and checking out the Curious George store, we headed over to a certain large bookseller. There I found scientific gold, a book about the elements called...... The Elements: A Visual Exploration of Every Known Atom in the Universe.  This is the book that I have been reading to Child1 as a bedtime story for the past 5 nights.


I am willing to bet that you are thinking: "What the hell kind of bedtime story is that?!" My answer would be, the best. Why should bedtime stories always be about a porridge stealing, chair breaking, bed sleeping blonde, or a freakishly huge red-haired hound, or some other moral teaching fiction? Can we not also include the awesomeness that it the real world? Science? Engineering? Chemistry? These things can be fascinating! Let's take a really simple example from the above book: on page 34 we encounter Sodium. Bad stuff. Blows up when you toss it in water. Further on, on page 49 we find Chlorine. Really bad stuff, the gas will sear your lungs. As the author describes it, inhaling chlorine gas is "as if someone was pointing a blowtorch at your sinuses". Nice eh?  Here is where we get to the cool bits, when you mix these two really bad elements, you can EAT THE RESULT. When presented in the proper fashion, this will blow a child's mind right out of their ears (and make you the smartest person in the world to them). I ask you, where is the down side?


All joking aside, it's a wonderful thing to teach kids at a young age to respect others, play nice, ignore skin color and other good social values, as well as reading. But why is it that people balk at trying to teach their children the other stuff like how to plant seeds, what photosynthesis is, how to use a hammer and build a birdhouse, where bacon comes from, and, yes, how televisions work and what the elements are? I really don't think a child's mind will differentiate between learning how to spell a word and learning what the chemical formula for salt is. Science and technology in all its forms should be introduced at an early age, we need more engineers, scientists and researchers . Oh sure, some people will say that they don't want their kid to be a "NERD" or a  "GEEK", but those are just petty labels made by insecure people trying to make themselves feel good. In this situation should you ask yourself would the likes of Bill Gates (Microsoft founder), Steve Jobs (iPod anyone?), Brad Bird (I loved The Incredibles) and Ken Olsen (this one you should look up) would really care what others called them in school.


Don't even get me started on lasers.....

Robots are COOL!

I freely admit that I am a nerd. I like engineering, solving problems, computer games, lasers and ROBOTS. Let me just say that before you judge, seeing six robots try to hang inflatible tubes on pegs was never so much fun. Sounds boring I know, but when you're in a crowd who's loving it, listening to songs from The Scorpions, Van Halen, Lit and AC/DC it's hard not to get excited.

What am I talking about? It's called The FIRST Robotics Competition (For Inspiration and Recognition of Science and Technology) and..... it's awesome. There are over 2100 teams, 52000 participants from nine countries and they all build robots to complete specific challenges. From what I could see it seems like an excellent way of teaching children about Math, Science, Technology, Teamwork, Sportsmanship, Communication and Self Esteem. All worthy goals, yes?

The competition this year consisted of six robots on a playing field for about 4 minutes. The first 15 seconds of which the robots had to guide themselves to accomplish a goal of lifting a yellow innertube onto any one of 9 metal pegs from about 3 to 10 feet in the air. The next 3 minutes or so, the robots were controlled by drivers to accomplish the task of putting red, white and blue inner tubes onto the same pegs, points were awarded for placing the tubes in certain positions, configurations and heights. The final 30 seconds the robots had to get to one of 4 vertical poles, deploy a mini robot which would climb the pole to press a button at the top, points for first second and third place.

It was very much like robot soccer/basketball since robots could block others from getting innertubes and entering the scoring area, but not interfere with them in the scoring area. There were cheer leading teams, professional wrestling style announcers, and light shows. This was a very much family and student oriented event. If you have kids, I would strongly suggest you check it out, I can personally vouch that while involvement may not be appropriate for the under 6 set, it is highly entertaining for all ages (at least down to 22 months of age).

Good news is nice, but bad news sells papers.

  There have been many more announcement about Japanese workers being exposed to radioactive water, radiation inhalations, food bans and radiation levels 1000 times above normal. I ask you to think and take into consideration the information in this post. More often than not, the stories that you are hearing are indeed reporting the facts, but since so little is understood by the reporters and those who hear the reports, these facts sound more scary than they should. Take heart in knowing that the amount of radiation that an average person is exposed to in one year is 50 times less than the maximum allowable dose for radiation workers. This in turn is only ½ of the lowest dose of radiation proven to statistically increase the probability of getting cancer.


   Some of you have probably fixated on the 1000 times above normal bit. This number may sound scary until you take into account that this figure is a time based figure. Let us do an example taking information from the above chart. The maximum dose of radiation one can receive as a member of the public in the US is 1000 MicroSieverts per year(ignore the units for now). Please note the time dependence. So, a radiation level 1000 times above normal means that a person could receive the maximum allowable yearly public doseage in just under 9 hours. This level would also expose a person the minimum dosage proven to statisitcly increase the probability of cancer in 900 hours (just over 1 month).


  One last thing, I found a very useful chart that puts the whole radiation exposure thing into perspective, I have attached a link to the site that has it. This chart is from WBUR in Boston, created by a cartoonist with a physics background.


  I hope this helps with everyone's understanding, and I apologize for those of you who already had this conversation with me. Please, if you have any questions or concerns, or want to discuss it further, email or tweet me @FrozenLaser.

The Sum of All Fears

I know that many of you pay attention to what's going on in the world, who doesn't? In light of recent events, and my perception that many people, through no fault of their own, have very little understanding of radiation and radioactivity in general, I have decided to write these two short articles to try to decrease the level of FUD (Fear Uncertainty and Doubt). The subject that I am commenting about is the recent dual tragedy of earthquake/tsunami and the resultant nuclear facility problems that have been plastered all over the news. You have probably heard of the "plutonium leak" near Fukushima and that there have been increased levels of radiation found in the rainwater in Boston, I am going to try to alleviate any fears that you might have about these two events. First the rain water in Boston. The amount of radioactivity that was detected in the rainwater in Boston was 71pico-Curies. For those who don't know what a Curie is, have no fear, a Curie is defined as 37000000000 (37 Billion) radio active decays per second. The unit prefix PICO is defined as the quoted number (in this case 71) multiplied by 0.000000000001. Now for the math bit which makes this relevant, multiplying both numbers together we get a number that in essence means that they were detecting about 2.6 radioactive decays per second. If this sounds like a lot, for comparison, the smoke alarm currently in your house has 30600 decays per second. Additionally the radioactive substance detected in Boston is Iodine131. Iodine131 has a half life of 8 days. This means that half the iodine is gone after 8 days, so in 4 weeks the amount left will be a little over 1/20 of what was originally detected.

Now for Fukushima. There was a reported plutonium leakage found in the soil surrounding the reactor. The amount of plutonium that was found in the soil was very small; in fact it would not normally have caused any concern whatsoever since the amount that was found was in no way more or less than what was scattered around the globe when the US and Russia were testing our nuclear weapons. The only reason that they know that this material came from Fukushima is because of the specific isotope (or atomic variation if you don't know that an isotope is) was specific to the Fukushima reactors. I would like to stress that they did not measure any radioactivity appreciably above the normal levels that are usually found in soil anywhere in the world.

As I am sure that this is not the last of the news that will come from Japan, there will most likely be follow-up posts.