Yeah, "halt and catch fire" has a new meaning when the device has a lithium battery.
The cited paper refers to http://www.minimagnetospheres.org/, which has some interesting detail on the concept.
Well, if it crossed the Pacific and went upstream the Columbia River, it might have made it to Montana -- although there are a surfeit of dams to overcome along the way.
A: Legacy code.
Two million miles per hour is less than 0.003c, but still quite a clip, even in astronomical terms.
Since they're discussing velocity (vector speed), and not just speed, the headline is correct in saying " -1000 km/s" when the measured value is -1025 km/s, but one can debate whether the abstract is correct in saying "an extraordinary blueshift of -1025 km/s", rather than "an extraordinary blueshift of 1025 km/s", since "blueshift" gives one the sign of the velocity already.
I always thought the most unlikely technological development in my lifetime was the handheld GPS device. It would be "most unlikely" because it required tremendous, simultaneous, and largely unforeseen advances in several different technologies, each of which was hard to predict in 1981. The list is at least:
1. Low power, low voltage, low noise L-band receivers, sensitive enough to be compatible with the weak signal coming from the internal antenna of a handheld device;
2. Stupendous amounts of digital signal processing, also at low power and low voltage;
3. Digital map databases of (substantially) every road in the world, accurate to a few meters;
4. A substantially world-wide, wideband wireless data link to get the digital map into the handheld device in the first place;
5. Low power, low voltage, high resolution, multicolor flat panel displays;
6. Gigabytes of low power, low voltage data storage memory; and
7. High energy density, high power density batteries capable of supplying the whole thing.
And, perhaps most impressive of all, the manufacturing technology to make all of the above small enough to fit in a handheld device, at a price low enough to sell by the zillions.
Of the list above, probably only #2 could have been predicted, and then only if one were willing to extrapolate the then-relatively-new Moore's Law by a very large amount. (Recall that Mead and Conway had only written their Introduction to VLSI systems the previous year; until then it was not clear that such complex chips could even be designed on human time scales, let alone built for a profit.)
The fact that a handheld GPS device is now an anachronism, since the technology is now small enough and low-power enough to be integrated into other handheld devices, like smart phones, pleases me no end.
AND a bunch of dead zombies.
What's a dead zombie? Is this some kind of recursion?
(Getting old has a lot of advantages, but one of the disadvantages is that it's harder to keep track of popular memes. I mean, I never understood the whole "vampire" thing, and now we're on to zombies. What's next?)
The "they" in the quoted line refers to people, not computers. It's the people picking the method (poorly).
The issue with Sudoku is that easy and difficult puzzles can have the same number of boxes to fill.
Somewhere I read an article by a guy who makes and sells Sudoku puzzles to newspapers. He explained that the value of providing the puzzle was near zero, since anyone with a computer could easily generate thousands of them, and anyone without a computer could get them from any number of sources. The value of his service, and the reason newspapers paid him to provide the puzzle, he said, was that he provided an accurate difficulty estimate to the puzzle. People attempting, and failing to solve, a difficult puzzle rated "easy", and people quickly solving an easy puzzle rated "difficult", were dissatisfied, and complained. People that had the experience they expected -- easy puzzles quickly solved, hard puzzles solved only with difficulty -- were much more satisfied.
The result was, newspaper editors got fewer complaints using his puzzles than they did from his competitors, so they bought from him.
He said he spent far more time tweaking his difficulty-rating algorithm than he did his software that generated the puzzles themselves -- since that was what kept him in business.
[I]t's actually a very strategic piece of property that dates back to the cold war.
It's actually older than that. The US has been there since the Cuban-American Treaty of 1903.
The fact that there are lots of yellow multimeters for sale in the US is not relevant, for that could mean either (a) they are knockoffs, and Fluke is losing the battle against the counterfeit products; or (b) Fluke has a successful side business licensing its trademark. (n.b.: Multimeters were almost uniformly black -- e.g., the Simpson 260 -- in the years before Fluke introduced its first yellow model, in the 1980s. It was very distinctive at the time.)
And you should exercise caution in what you encourage in others: The issue at hand is a trademark, not a patent, and I think you'll find, if you look up the trademark registration certificate (the controlling legal document), that it very specifically mentions the color yellow.
Any "hobbyist electronics retailer" attempting to sell a multimeter in the US knows -- or should know -- what a Fluke multimeter looks like, and any businessman or businesswoman knows -- or should know -- that there will be problems trying to sell a product that looks like the product with a dominant share of the market.
Also, you don't need "an army of consultants or attorneys to find this information." Trademarks are freely available from the USPTO web site, in searchable form. Anybody can look them up.
Finally, most business contracts between a manufacturer and a distributor will have an indemnification clause, in which the manufacturer warrants that the product has no intellectual property issues and, should a claim be made against the distributor, the costs associated with such claims will be borne by the manufacturer. If Sparkfun's contract for the Fluke knock-offs didn't have such a clause, I'm sure their standard contract will in the future.
I'm from the same era, and can corroborate nani's experience. Even the football players in my high school -- the guys with scratches on the back of their hands, from dragging them along the ground as they walked -- could name the planets in order.
Of course, since schools were funded by a property tax on the local landowners, the same opportunities were not available to the poorer kids going to the school on the other side of town. The desire was to raise that school to the academic level of the rich school, by spending more on education in general, but what seems to have happened is that the funding was just averaged between them, leading to the poor neglected gifted child syndrome.
Is it the entire 2 GHz transmitter that is missing? Just the power amplifier? Just the PCM modulator? The feed for the 70m dish?
What, exactly, is missing?
they need High voltage AC to heat the plate.
Er, no. They need high voltage DC, not AC, to bias the plate, not heat it. The goal is to encourage electrons emitted from the heated cathode due to the Edison effect (thermionic emission) to travel to the plate, rather than stay in a cloud around the cathode as they would otherwise do. To do this, in typical operation the plate is biased positive with respect to the cathode. The plate only gets heated by the energy of the electrons striking it, an undesirable secondary effect.