I'm going to present some of my research at the EGU in Vienna in exactly one week. Check out my abstract here. I'm flying out Tuesday night, and hoping to see some of the city and culture. Thanks to Duolingo, I'm now 4% fluent in German, yay!
Originally I was going to run 21.1k in Montreal, but since the conference is eating up the chance for proper training, plus since I'm slightly injured with a forever tight hamstring. So it's the 5k for me (turns out lots of sitting and running do not cancel each other out). Also my wife Heather is running the 5k and raising money for the MOSD (Montreal Oral School for the Deaf ) on her personal fundraiser page. You even get a tax voucher if you happen to contribute.
Finally, Stocks and options:
I'm learning a little more about stocks, and to a lesser extent options. It began with Jason Kottke's blog citing theBlack-Scholes as among the equations that changed the world, and realized I have never heard of it. It is useful (apparently) with options traders, who need to know what a 'good' price is for a call/put option. I had never understood options trading either. Figured it wasn't too late to learn.
Basically if you try solving for the brownian-type motion of stock movement, normalized to one-year periods, you get their famous equation, which is:
Where C is the option price, S is the strike price, sigma is the volatility, r is the interest rate if you bought a bond of some sort, and t is time. The sigma value is known as the implied stock volatility (IV), it might range from 0% (rock-steady) to 100% (stock could lose all or double its value in a year's time). Normally it takes some doing to calculate the number. What struck me as interesting is how interest rates are so low you can almost ignore them, hence setting r = 0 makes good sense. Doing so, you get a simpler equation: