Sharrow Marine introduced a new ship propeller design two years ago, at the Miami International Boat show. Unlike traditional propellers, there are no ends on the blades. Instead, each blade is a connecting ribbon with the outer edge behaving like a connecting winglet. The blade pairs provide low-speed lift-efficiency gains, as seen on a biplane, while the winglets provide high speed gains. The efficiency gain is 9-30% over a wide range of speeds, as shown below, a tremendous improvement. I suspect that this design will become standard over the next 10-20 years, as winglets have become standard on airplanes today.
A Sharrow propeller, MX-1
The high speed efficiency advantage of the closed ends of the blades, and of the curved up winglets on modern airplanes is based on avoiding losses from air (or water) going around the end from the high pressure bottom to the low-pressure top. Between the biplane advantage and the wingtip advantage, Sharrow propellers provide improved miles per gallon at every speed except the highest, 32+ mph, plus a drastic decrease in vibration and noise, see photo.
The propeller design was developed with paid research at the University of Michigan. It was clearly innovative and granted design patent protection in most of the developed world. To the extent that the patents are respected and protected by law, Sharrow should be able to recoup the cost of their research and development. They should make a profit too. As an inventor myself, I believe they deserve to recoup their costs and make a profit. Not all inventions lead to a great product. Besides, I don’t think they charge too much. The current price is $2000-$5000 per propeller for standard sizes, a price that seems reasonable, based on the price of a boat and the advantage of more speed, more range, plus less fuel use and less vibration. This year Sharrow formed an agreement with Yamaha to manufacture the propellers under license, so supply should not be an issue.
Vastly less turbulence follows the Sharrow propeller.
China tends to copy our best products, and often steals the technology to make them, employing engineers and academics as spys. Obama/Biden have typically allowed China to benefit for the sales of copies and the theft of intellectual property, allowing the import of fakes to the US with little or no interference. Would you like a fake Rolex or Fendi, you can buy on-line from China. Would you like fake Disney, ditto. So far, I have not seen Chinese copies of the Sharrow in the US, but I expect to see them soon. Perhaps Biden’s Justice Department will do something this time, but I doubt it. By our justice department turning a blind eye to copies, they rob our innovators, and rob American workers. His protectionism is one thing I liked about Donald Trump.
The Sharrow Propeller gives improved mpg values at every speed except the very highest.
I’d written previously about Marcel Duchamp’s early work as a founder of the Dada school of modern art, a school that aims to say nothing about anything except about itself. Duchamp hung a urinal as art and called it “fountain.” It was comic, insulting, and engaging — an inspiration for many modern arts to follow , and much bad modern art, too — the collections of string and found objects and paintings of squares or squiggles. But the story of Duchamp is interesting. In 1925, M. Duchamp gave up on art, at least this type of art and became a chess player. As with art, he was very good at it, and became the French chess champion. Now that’s an unexpected turn.
What sort of chess did Marcel Duchamp play? Modern. Very modern. While tradition chess had focussed on the center. He developed at the sides, a strategy that was called an “Indian attack”, named (I assume) after American Indians attacking a stage-coach. Instead of attacking directly, the popular image of an Indian attack is attack from the sides, or behind trees. In chess, it involves typically a “fianchettoed bishop.” Other modern chess players of the time attacked from the side too (Réti, Alekhine) but they generally worked form one side or the other with some central presence. Duchamp worked from both, often with no center.
Position after white’s 13th move
Here is a dramatic example, a position from a game with an American great, GM George Koltanowski. It’s 13 moves in, with Duchamp, is black, generally considered the weaker side. He has fianchettoed both of his bishops, and given up the center to Koltanowski. It’s Duchamp’s turn to move/ He will win in three moves.
Notice that Koltanowsi’s bishops point outward, as a cowboys guns might point, or as from a British fighting square. Meanwhile, Duchamp’s bishops point inward, with his queen -bishop almost directly at the white king. The game proceeded as follows. 13…, Nxd5 14.Nxd7, Nxf4 15.Nxf8, Bd4, 0-1..
The full game, seen here,. It might prove instructive if you want to explore in Duchamp’s footsteps. While I play traditionally, I sometimes fianchetto, and do not find it racist that such side-attacks are called “Indian attacks.” Perhaps that’s because I’m old and used to such things, or because they very often work.
Please Touch. M. Duchamp 1947
Self-portrait, M. Duchamp, 1957 (torn paper on black velvet).
As M. Duchamp’s chess skills waned, he returned to the art world, going in the opposite direction of Dali. Duchamp’s last works are small, and simple. They are still arresting but more dream-like. Dali’s works grew bigger and busier as he got older.
Eliquis (apixaban) is blood thinner shown to prevent stroke with fewer side effects than Warfarin (Coumadin). Aspirin does the same, but not as effectively for people over 75. My problem with eliquis is that it’s over-prescribed. The studies favoring it over aspirin found benefits for those over 75, and for those with A-Fib. And even in this cohort the advantage over aspirin is small or non-existent because eliquis has far more serious side effects; hemorrhage, or internal bleeding.
Statistically, the AVERROES study (Apixaban Versus Acetylsalicylic Acid to Prevent Stroke in AF Patients Who Have Failed or Are Unsuitable for Vitamin K Antagonist Treatment) found that apixaban is substantially better than aspirin at preventing stroke in atrial fibrillation patients, but worse at preventing heart attack.
Taking 50 mg of Eliquis twice a day, reduces the risk of stroke in people with A-Fib by more than 50% and reduces the rate of heart attack by about 15%. By comparison, taking 1/2 tablet of aspirin, 178 mg, reduces the risk of stroke by 17% and of heart attack by 42%. The benefits were higher in the elderly, those over 75, and non existent in those with A-Fib under 75, see here, and figure. Despite this, doctors prescribe Eliquis over aspirin, even to those without A-Fib and those under 75. I suspect the reason is advertising by the drug companies, as I’ve claimed earlier with Atenolol.
The major deadly side-effect is hemorrhage, brain hemorrhage and GI (stomach) hemorrhage. Here apixaban is far worse than with aspirin (but better than Warfarin). The net result is that in the AVERROES random-double blind study there was no difference in all-cause mortality between apixaban and aspirin for those with A-fib who were under 75, see here. Or here.
To reduce your chance of GI hemorrhage with Eliquis, it is a very good idea to take a stomach proton pump drug like Pantoprazole. If you have A-Fib, the combination of Eliquis and pantoprazole seems better than aspirin alone, even for those under 75. If you have no A-Fib and are under 75, I see no benefit to Eliquis, especially if you find you have headaches, stomach aches, back pain, or other signs of internal bleeding, you might switch to aspirin or choose a reduced dose.
A Japanese study found that half the normal dose of Eliquis, was approximately as effective as the full dose, 50 mg twice a day. I was prescribed Eliquis, full dose twice a day, but I’m under 70 and I have no A-Fib since my ablation.
Life expectancy has dropped in the US to undeveloped world levels. Biden blames COVID and racism. I think it’s too much drugs, and too few opportunities.
I’m struck by the fact that US life expectancy is uncommonly low, lower than in most developed countries. Lower too than in many semi-developed countries, and our life expectancy is decreasing while other countries are not seeing the same. It dropped by about 3 years over the last 2 years as shown. I wonder why the US has suffered more than other countries, and suspect we are over-prescribed. Too much of a good thing, typically isn’t good.
A hydrogen molecule consists of two protons held together by a covalent bond. One way to think of such bonds is to imagine that there is only one electron is directly involved as shown below. The bonding electron only spends 1/7 of its time between the protons, making the bond, the other 6/7 of the time the electron shields the two protons by 3/7 e– each, reducing the effective charge of each proton to 4/7e+.
We see that the two shielded protons will repel each other with the force of FR = Ke (16/49 e2 /r2) where e is the charge of an electron or proton, r is the distance between the protons (r = 0.74Å = 0.74×10-10m), and Ke is Coulomb’s electrical constant, Ke ≈ 8.988×109 N⋅m2⋅C−2. The attractive force is calculated similarly, as each proton attracts the central electron by FA = – Ke (4/49) e2/ (r/2)2. The forces are seen to be in balance, the net force is zero.
It is because of quantum mechanics, that the bond is the length that it is. If the atoms were to move closer than r = 0.74Å, the central electron would be confined to less space and would get more energy, causing it to spend less time between the two protons. With less of an electron between them, FR would be greater than FA and the protons would repel. If the atoms moved further apart than 0.74Å, a greater fraction of the electron would move to the center, FA would increase, and the atoms would attract. This is a fairly pleasant way to understand why the hydrogen side of all hydrogen covalent bonds are the same length. It’s also a nice introduction to muon-catalyzed cold fusion.
Most fusion takes place only at high temperatures, at 100 million °C in a TOKAMAK Fusion reactor, or at about 15 million °C in the high pressure interior of the sun. Muon catalyzed fusion creates the equivalent of a much higher pressure, so that fusion occurs at room temperature. The trick to muon catalyzed fusion is to replace one of the electrons with a muon, an unstable, heavy electron particle discovered in 1936. The muon, designated µ-, behaves just like an electron but it has about 207 times the mass. As a result when it replaces an electron in hydrogen, it forms form a covalent bond that is about 1/207th the length of a normal bond. This is the equivalent of extreme pressure. At this closer distance, hydrogen nuclei fuse even at room temperature.
In normal hydrogen, the nuclei are just protons. When they fuse, one of them becomes a neutron. You get a deuteron (a proton-neutron pair), plus an anti electron and 1.44 MeV of energy after the anti-electron has annihilated (for more on antimatter see here). The muon is released most of the time, and can catalyze many more fusion reactions. See figure at right.
While 1.44MeV per reaction is a lot by ordinary standards — roughly one million times more energy than is released per atom when hydrogen is burnt — it’s very little compared to the energy it takes to make a muon. Making a muon takes a minimum of 1000 MeV, and more typically 4000 MeV using current technology. You need to get a lot more energy per muon if this process is to be useful.
You get quite a lot more energy when a muon catalyzes deuterium fusion or deuterium- fusion. With these reactions, you get 3.3 to 4 MeV worth of energy per fusion, and the muon will be ejected with enough force to support about eight D-D fusions before it decays or sticks to a helium atom. That’s better than before, but still not enough to justify the cost of making the muon.
The next reactions to consider are D-T fusion and Li-D fusion. Tritium is an even heavier isotope of hydrogen. It undergoes muon catalyzed fusion with deuterium via the reaction, D+T –> 4He +n +17.6 MeV. Because of the higher energy of the reaction, the muons are even less likely to stick to a helium atom, and you get about 100 fusions per muon. 100 x 17.6 MeV = 1.76 GeV, barely break-even for the high energy cost to make the muon, but there is no reason to stop there. You can use the high energy fusion neutrons to catalyze LiD fusion. For example, 2LiD +n –> 34He + T + D +n producing 19.9 MeV and a tritium atom.
With this additional 19.9 MeV per DT fusion, the system can start to produce usable energy for sale. It is also important that tritium is made in the process. You need tritium for the fusion reactions, and there are not many other supplies. The spare neutron is interesting too. It can be used to make additional tritium or for other purposes. It’s a direction I’d like to explore further. I worked on making tritium for my PhD, and in my opinion, this sort of hybrid operation is the most attractive route to clean nuclear fusion power.
Monty Python’s “Life of Brian” presents the fictional story of Brian, someone born in the stable next door on Christmas Day, who is repeatedly mistaken for the messiah by a crowd that never gets the message right. We follow Brain as he grows and preaches wisdom, like “Think for yourselves, work it out, you’re all individuals.” The crowd then answers, in unison, “Yes! We’re all individuals.” Eventually Brian joins the People’s Liberation Front of Judea and is crucified by the Romans. Brian’s thoughts aren’t bad, but the humor is how completely his followers mess them up. Another example, near the end of the film, happens with Brian on the cross. A band of fanatical followers comes to the rescue, his “suicide squad”. They proceed to commit suicide, See it here. Brian can only say, “You silly sots.” It’s comedy. It’s a funny/sad take on religious martyrs, and it provoked a united condemnation by the three great religions because the comedy is relevant, and thus dangerous.
The movie opened in the Us, and was called “blasphemous” by the Catholic Church, and “a crime against religion.” The Catholic film-monitoring office rated it “C” for Condemned. Among Jewish leaders, Rabbi Abraham Hecht of Chabad/Lubovich asked to have the movie banned as a danger to civic peace. Chabad/Lubovich was promoting their own leader as the messiah (he had not proclaimed himself) so the film must have touched a particularly sensitive nerve.
Brian, center top, is thought to be the messiah, and reluctantly accepts the role, only to have it screwed up.
Rabbi Hecht claimed, in The New York Times, Aug 28, 1979, “This film is so grievously insulting that we are genuinely concerned that its continued showing could result in serious violence.” He was joined by the Union of Orthodox Rabbis and the Rabbinical Council of Syrian and Near Eastern Sephardic Communities of America, asking to have the movie banned. They had not asked to have any other movies banned before or since.
The US protestant opposition was headed by Robert Lee of the Lutheran council, who called it “a profane parody” in a broadcast carried by 1,000 radio stations. The religions united to buy a 1 page protest in “Variety,” a rare show of unity. The movie was banned in Italy, Ireland, Chile, Norway, parts of Britain (as a health danger), and likely many other countries. Ireland waited 8 years for a showing; Italy waited twenty years; Aberystwyth, Wales waited thirty years. The ban hasn’t yet been lifted in any of these places, by the way, nor have the religious bans been lifted. It seems that all religions agree you should not think for yourself abut God, or imagine that the leaders might have got things wrong.
The bishop of Southwark, on TV, making the case that “Life of Brian” was an attack on Christianity. It was just an attack on leaders like him.
In Britain, the effort to ban the movie were spearheaded by the “Festival of Lights,” a Protestant group. A leader of that group, Malcolm Muggeridge, debated two of the Pythons on TV, joined by Mervyn Stockwood, bishop of Southwark. See the full Life of Brian 1979 Debate, here. Malcolm Muggeridge had been editor of Punch, Britain’s top humor magazine. He argued that the movie was unfunny. Bishop Stockwood was considered a liberal, known to favor homosexual marriage within the church. He would not tolerate religious deviance, though and argued that the movie was sacrilegious, especially the song at the end. Neither individual seems to listen to anything the Pythons say. Stockwood ended the debate by saying that the Pythons “would get their 20 pieces of silver, that’s for sure”.
Abraham Hecht before the man he claimed was the messiah-king; He called “Life of Brian” a grave danger, and called for Israeli assassinations.
Despite being banned in many countries and by all major religions, the movie was financial success, in part because of the controversy. Its enemies too, in part for their controversy. The Festival of Lights gained notoriety for the protests of sex and violence in the movies. The Catholic Church banned more movies: Shaft, Rambo, Friday the 13th, and all the Borat movies. Rabbi Hecht protested the Israeli rabbinate for making conversion too easy, then pushed the idea that gentiles have to live by a Lubovich interpretation of “The Laws of Noach.” And finally, in June 1995, Hecht pressed for the assassination of Israeli Prime Minister Yitzhak Rabin and Foreign Minister Shimon Peres: “Such people should be killed before they can perform the deed.” [the Oslo accords]. Rabin was assassinated five months later — after the accords were signed. Hecht was presented with a 6 month leave from his pulpit. There were no general condemnations of the banners within their sects, though. All seem to agree that religion is about loving your neighbor, and banning or assassinating those who are not loving enough.
The most contentious part of the movie is the song at the end. It has become popular at funerals and with the terminally ill: “Always look on the bright side of life.” It’s comforting without being preachy: “When you’re chewing on life’s gristle, don’t grumble, give a whistle, and this will help things turn out for the best. And always look on the bright side of life….” Bishop Stockton found this song the most offensive part, and my sense of why is that, as a bishop, he feels he must be seen to stand between you and God. No one like that wants a terminally ill person to look at him and “give a whistle.”
