Joe Ayoob throws a John Collins design, officially breaking the world record by 19 feet, 6 inches.
All Hail Our New Fish Robots Overlords
What Makes a Robot Fish Attractive? (Hint: It’s in the Moves)
The researchers designed their bio-inspired robotic fish to mimic the tail propulsion of a swimming fish, and conducted experiments at varying tail beat frequencies and flow speeds. In nature, fish positioned at the front of a school beat their tails with greater frequency, creating a wake in which their followers gather. The followers display a notably slower frequency of tail movement, leading researchers to believe that the followers are enjoying a hydrodynamic advantage from the leaders’ efforts.
Writing About Science, When You’re Not A Scientist
The Promise & Pitfalls of Public Outreach Part 2: Writing About Science, When You’re Not A Scientist
I’m often surprised by how much scientists think the general public knows about their fields of study. For example, a researcher I was interviewing recently said “Surely most people know what tissue engineering is?” Actually, I think most people probably have no idea what tissue engineering is. We have to explain it to them.
Powered by Vodka Martinis, No Doubt
Flying robot quadrotors perform the James Bond Theme by playing various instruments including the keyboard, drums and maracas, a cymbal, and the debut of an adapted guitar built from a couch frame.
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These flying quadrotors are completely autonomous, meaning humans are not controlling them; rather they are controlled by a computer programed with instructions to play the instruments.
Velocitas Eradico
A test shot fires from the Office of Naval Research-funded Electromagnetic Railgun prototype launcher located at the Naval Surface Warfare Center Dahlgren Division.
A story from a little over a year ago reported a 33 MegaJoule test. A blog post at Scientific American puts the design range at 20-32 MJ, so it seems the refinements are now in areas other than the energy (e.g. better efficiency, moving from a research device to a better-engineered on that can be deployed). That article also refines the expected range of the gun.
The Navy says that the railgun project, initiated in 2005, will yield a 20- to 32-megajoule weapon that shoots a distance of 50 to 100 nautical miles (roughly 90 to 185 kilometers).
Sexier than Lab Rats
Some of them, anyway.
I remember an experiment I did at the age of 11. My test subjects were Cub Scouts. My hypothesis (that nobody would see me sneak a fishbowl under a shawl) proved false and the Scouts pelted me with hard candy. If I could have avoided those welts by visiting an MRI lab, I surely would have.
But magic’s not easy to pick apart with machines, because it’s not really about the mechanics of your senses. Magic’s about understanding—and then manipulating—how viewers digest the sensory information.
Beware the Tides of March
Calendars Aren't Forever
It is extraordinary hubris for any civilization to presume that its calendar will still be in use in 1,000 years
I have already noted the strange history of the Swedish adoption of the Gregorian calendar and leap days, but here’s another article that puts a personal touch on the existence of February 30, in 1712, along with more history of our calendars. The Drama of Measuring the Days of Our Lives
Death Star Economics Redux
The Death Star Is a Surprisingly Cost-Effective Weapons System
[H]ow big is the Republic/Empire? There’s probably a canonical figure somewhere, but I don’t know where. So I’ll just pull a number out of my ass based on the apparent size of the Old Senate, and figure a bare minimum of 10,000 planets. That means the Death Star requires .03 percent of the GDP of each planet in the Republic/Empire annually. By comparison, this is the equivalent of about $5 billion per year in the current-day United States.
Went there first, I did, but not in as much detail.
All Blog Posts Are Interconnected
The kerfuffle is not dead yet. First, here’s a piece from The Guardian, specifically Jon Butterworth’s Life and Physics column: On Pauli and the interconnectedness of all things
Now, declaration of interest, Brian and Jeff are both old friends of mine, and I even starred briefly in “Night of the Stars” as “elbow behind Jonathan Ross’s head”. I have never met Sean, though I have read some of his work (and used his links) and I have a lot of respect for him. Anyway, this is about physics, not about taking sides in a celebrity scientist face-off.
My celebrity non-status must be why my contribution(s) are only hinted at (“some previous blogs” and “**it”; I guess you can call me et. al) but the main objections, or more precisely, my main objections (which I delineated) were the claim that a response to change in one electron’s energy would be instantaneous, and that the cause would be the Pauli Exclusion Principle. It seems to me that Jon admits that Brian Cox was incorrect on both of these points, though there’s some hedging on the instantaneous part — he gives an example of the electron in a potential well, i.e. an electromagnetic interaction, but then cites the phenomenon as being nonlocal, which I don’t understand. (Yet somehow he manages to conclude this was a “high-score draw”, which brings the Black Knight’s “We’ll call it a draw!” to mind)
So in principle one has to treat the potential of the whole universe, all the atoms, as a single system (a single Hamiltonian). All agree on this, as far as I can tell.
This already means that saying “it’s in a different place” is not sufficient reason to say of an electron “it’s in a different quantum state”.
This is something I don’t accept as given. I still point to my example of composite Fermions. Nature thinks that individual atoms are identical, because Fermionic atoms obey Fermi-Dirac statistics. If the electron energy levels were different, they would no longer be identical and would not do this. Nature seems to be saying that this assumption is incorrect.
Another issue has been pointed out by Dr. Skyskull in Pauli, “armchair physicists”, and “not even wrong”, in which he walks you through some of the background before discussing the problem, which is useful. (Part of the post concerns some of the remarks that have been made, and I’m happy to skip over that and focus on the physics, as I have already noted).
The additional argument comes near the end, regarding a claim that while the splitting is there, it’s so small that we can’t measure it, which garners a “physics fail” epithet.
Here Cox explicitly acknowledges that his “universal Pauli principle” consequences are something that not only cannot be measured today, but in principle can never be measured, by anyone
There a notion in science that can be summarized as: pics (i.e. experimental results) or it didn’t happen. You simply can’t make a claim in science without some kind experimental evidence to back it up — without that support it’s merely hypothesis or conjecture. You come to expect this from the fringe folks, but not from actual scientists. It’s hard to fathom that argument being brought up.
If you want to ruminate on the implications of treating the universe as a single system, fine — there’s a lot to discuss, such as “what does ‘identical’ really mean in this context?” Much of it will be interesting and some of it quite subtle. But presenting it as accepted science, to a lay audience? No.