24 lines? Uh, that is a T1. T1 is available everywhere, although it might get rather expensive in some places.
In general, a T1 seems to be much, much less latency than any DSL I have ever seen. A lot fewer routers in the way. End result is that a 1.5Mb T1 is a lot closer to 3Mb DSL, maybe 6Mb in some situations. Having had a business on DSL a couple of times but mostly on T1 connections this has proven itself several times.
I don't think feature parity means you can use MS office documents. Feature parity means you can do anything in open office that you can do in MS office.
You're right that I did mix feature sets with interoperability. Both are valid points. There are still lots of things you can do with MS Office that you can't in Open Office. I'll be honest and say I use both. I like OO for basic stuff like simple word documents at home. I don't use it at work because the features simply aren't there. Impress and calc are toys compared to MS Office.
The only thing OO has going for it is the price and multi-OS support. It's quickly becoming slow and bloated though.
Superfluid He is also wickedly cool. If you can build something to house it, and pump on it until it gets cold enough, you should be able to do some cool experiments with it.
Though not as visually appealing as a cloud chamber, building a detector to measure the lifetime of a muon was one of my favorite undergrad experiments. Three scientilators stacked on top of each other wired into a bunch of electronics, along with the right formulas, and you can get a reasonable measurement. My prof gave us a Phys Rev paper describing how it was done years ago, access to the parts we needed, a scope, and a computer that had a labview application set up for counting experiments. We figured out the electronic logic from the paper, used the scope to debug and set all the triggers correctly, then had to figure out how to actually calcuate the lifetime from what we measured (along with systematic + statistical errrors). Hard, yes, but man we learned a good deal about real nuts and bolts experimental physics that quarter.
There was another announcement recently as well pointing towards the summer 2009 plan, so it is probably more likely. We'll know more in Feb once they've had more chance to study the data from the incident.
While the same formulas won't hold for a metal, the same ideas will be true. Another example. When you sweat, your skin is cooled by the fact the water is vaporizing (evaporating) off of your skin. But of course your skin is far from 100C, however some of the water will still vaporize.
I don't know the specifics for lead, but there will still be some fraction of the lead that will vaporize off at well below 2000 degrees. If that fraction is big or so small that it doesn't matter is another point all together.
Work is the crab grass in the lawn of life. -- Schulz