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Video abstract: Experimental demo of an invisibility cloak
Experimental demonstration of a broadband array of invisibility cloaks in the visible frequency range by V N Smolyaninova, I I Smolyaninov and H K Ermer
A little video about the paper
Weighted towel
a good #towelday by @ulaulaman
The primary object of the present invention is to provide a simple and safe means to secure a beach towel or blanket to the ground in the wind. A second objectis to make the invention easily carried. One embodiment offers an attached for holding wallet, clothing, etc. while swimming. These objects and will become apparent from the drawings, the description givev herein and appended claims.Arthur Dent thanks!
In all embodiments the anchoring means is provided by a weighted cord sewnall around the perimeter of the material. Thus this invention could comprise a beach towel or a blanket or a mat. Metal weights are first inserted into a woven cord. The ends are scaled. Such weighted are available commercially. The weighted cord is then sewn into a hem along the perimeter of the material.
From the patent number 4634618 by Keith B. Greer et al (1987) ...
And a good towel day!
David Merritt and June Barrow-Green at Milano
The next Monday (28/05/2012) will be a great day for science in Italy. Indeed the astrophysicist David Merritt and the mathematician June Barrow-Green will be at Milano for two distinct talks.
Merritt will be at the Osservatorio Astronomico di Brera for the following talk:
Relativistic Dynamics at the Centers of Galaxies (h 14:00)
The problem was stated by Poincaré in 1890 with the following quotation:
(1) From inSPIRE I found the following paper, Towards relativistic orbit fitting of Galactic center stars and pulsars (arXiv), that seems about the subject of the thalk.
(2) From the introduction of Oscar II's prize competition and the error in Poincaré's memoir on the three body problem by June Barrow-Green:
Merritt will be at the Osservatorio Astronomico di Brera for the following talk:
Relativistic Dynamics at the Centers of Galaxies (h 14:00)
Encounters between stars and stellar remnants at the centers of galaxies drive many important processes, including generation of gravitational waves via extreme-mass-ratio inspirals (EMRIs). The fact that these encounters take place near a supermassive black hole (SMBH) turns out to be important for two reasons: (1) The orbital motion is quasi-Keplerian, so that correlations are maintained for much longer than in purely random encounters. (2) Relativity affects the motion, through mechanisms like precession of the periapse and frame-dragging. The interplay between these processes is just now beginning to be understood, based on N-body simulations that contain a post-Newtonian representation of relativistic dynamics. A key result is that relativity can be important even for orbits that extend outward to a substantial fraction of the SMBH influence radius, by destroying the long-term correlations that would otherwise drive the evolution. I will discuss this work and its implications for the EMRI problem, for experimental tests of theories of gravity, and for the long-term evolution of SMBHs and galactic nuclei.(1)And June Barrow-Green will be at Mathematics Department "Federigo Enriques" with the talk Poincaré and the three body problem.(2) (h 16:30)
The problem was stated by Poincaré in 1890 with the following quotation:
I consider three masses, the first very large, the second small but finite, the third infinitely small; I assume that the first two each describe a circle around their common centre of gravity and that the third moves in the plane of these circles. An example would be the case of a small planet perturbed by Jupiter, if the eccentricity of Jupiter and the inclination of the orbits are disregarded.(3)
(1) From inSPIRE I found the following paper, Towards relativistic orbit fitting of Galactic center stars and pulsars (arXiv), that seems about the subject of the thalk.
(2) From the introduction of Oscar II's prize competition and the error in Poincaré's memoir on the three body problem by June Barrow-Green:
In the autumn of 1890 Henri Poincaré's memoir on the three body problem was published in the journal Acta Mathematica as the winning entry in the international prize competition sponsored by Oscar II, King of Sweden and Norway, to mark his 60th birthday on January 21, 1889. Today, Poincaré's published memoir is renowned for containing the first mathematical description of chaotic behavior in a dynamical system. Correspondence preserved at the Institut Mittag-Leffler reveals that the competition was beleaguered by difficulties throughout. In particular, it has emerged that only weeks before the prize-winning memoir was due to be published, Poincaré discovered an error in his work which forced him to make very substantial changes. Indeed it was only as a result of correcting the error that he discovered the existence of what today are known as homoclinic points. This paper is an account of the troubled history of the competition together with an explanation of the error in Poincaré's memoir.(3) Quotation extracted from Poincaré and the Three Body Problem
Scrat and the Stevin law
The pressure in a fluid depends only by the deep $h$ and the density of the fluid $\rho_f$:
\[p = \rho_f h g\]
where $g$ is the gravity.
We could consider also the generalized stevin law \[p = \rho_f h g + p_0\] where $p_0$ is the atmospheric pressure at sea level, but in order to explain the starting sequence in the following animation the first equation is sufficient. Thanks to Leonardo Petrillo (twitter, GPlus)
We could consider also the generalized stevin law \[p = \rho_f h g + p_0\] where $p_0$ is the atmospheric pressure at sea level, but in order to explain the starting sequence in the following animation the first equation is sufficient. Thanks to Leonardo Petrillo (twitter, GPlus)
A new sustainability model for Open Access
PeerJ is a new proposal in the world of the scientific journals with Open Access licenses. They write:
I hope that this is not a dream.
Thanks to OggiScienza.
First, the tax payers deserve free access to research they've paid for. "They won't understand it" is not a valid excuse. Neither is calling Open Access an unsustainable model.This philosophy is very good and resume all critical points in the OA model proposed by the great publishers. And it seems that this new model will be applied:
Second, the research community greatly benefits from unencumbered access to the research. And it helps the individual authors rapidly gain credit and revise their work. PeerJ is striving to make research a living process, not a set in stone PDF.
PeerJ is establishing a new sustainability model. Researchers will be able to purchase Lifetime Memberships, starting at just $99, giving them the rights to publish their articles in our peer reviewed journal. All published articles are made freely available to the public. Subscription fees made sense in a pre-Internet world, but now they just slow the progress of science. It's time to change that.In this way each researchers, also in Africa, for example, can afford to support Open Access.
I hope that this is not a dream.
Thanks to OggiScienza.
Maurice Sendak and the atomics for the millions
Attention: the post was updated after the first publication.
Atomics for the millions by Maxwell Leigh Edinoff and Hyman Ruchlis was the first book illustrated by Maurice Sendak.
In this post I propose you some illustration from the book that I found on the blog Collection children's books:
I choise some illustrations from the post. In particular, after the Einstein's portrait, the following two: in the first we can see the dance of the atoms: they bound with others in order to compose molecules. In the second there is a brief pictoric description of the radiation (left) and of the core of a nuclear power:
But the last, I think represents the story of the mankind, and, in this way, the only choice for our destiny seems logic. Or not?
Thanks to Peppe Liberti
In this post I propose you some illustration from the book that I found on the blog Collection children's books:
The void theory
On tumblr, one of my reader, frankietwohats, ask me the following question:
Now, the exact solution of Einstein's equations was provided by Lemaitre-Tolman-Bondi spacetime \[\text{d} s^2 = -\text{d} t^2 + \frac{Y'^2}{1-K} \text{d} r^2 + Y^2 \text{d} \Omega\] In this model there are four free parameters: the density at the origin, the density and radius at the midpoint, and the radius at which we match to Einstein-de Sitter spacetime(2). Instead the void model:
Can I ask you a random question? I can't remember the name of a theory that argued that the universe wasn't expanding, but instead was stretching. Do you happen to know of it/it's name? It came up in conversation today (well, universe expansion did) and I want to look into it more.I don't know if this is the theory that you intend, but after a briefly research on Google, i find th Void theory. About it, Esther Inglis-Arkell writes on io9:
There was a time that the earth was considered the center of the universe. Then it got knocked out of the way by the sun, and ever since then the astronomer's mantra was, "We are nothing special." The part of the universe the earth resides in can't be any different than any other part. It's not unique, or remarkable, or even out of the ordinary. Void Theory contradicts all that. Instead of sitting in a typical part of the universe, the earth sits in an unusually empty part; a void. The universe isn't expanding due to some mysterious force. It's just that when light comes from a denser part of the universe and trips across the void, it is altered to make it look like the universe is expanding. Since this exansion is the same when observed from any part of the earth, the earth has to be roughly at the center of this void. Suddenly, the observable universe is geocentric again.But... what is the void theory? First of all, following Clifton, Ferreira and Land(1), we must remember that our picture of the universe is based on the following two principles: the spacetime is dynamical, obeying to the Einstein's equations; the Universe is homogeneous and isotropic on large scales, that is a generalisation of the Copernican Principle that the Earth is not in a central, specially favored position.
Now, the exact solution of Einstein's equations was provided by Lemaitre-Tolman-Bondi spacetime \[\text{d} s^2 = -\text{d} t^2 + \frac{Y'^2}{1-K} \text{d} r^2 + Y^2 \text{d} \Omega\] In this model there are four free parameters: the density at the origin, the density and radius at the midpoint, and the radius at which we match to Einstein-de Sitter spacetime(2). Instead the void model:
is completely specfied by the radial profile, the Hubble rate at the void centre today, $H_0$, the radiation density today, which is fixed by the CMB mean temperature, $T_0 = 2.725 K$, and the baryon fraction $f_b = \frac{\rho_b}{\rho_m}$. Outside the void we asymptote to EdS.
The checklist for reading (and writing) science news
Emily Willingham (also on Field of Science) writes a little how to read science news. Because I'm a scientific blogger, this checklist could be useful in order to write better posts. In particular I would emphasize the following paragraphs:
I published press release in two cases: in the first case I published the text sended me by a friend about the results of his team research. In the second, recent case I publish some paragraphs from the original press release published on web, embedding some original paragraphs.
In general I try to publish original posts, but sometimes I cannot write post such that, so I use the abstracts (that I publish especially on posterous) or the press release on this blog. Instead on tumblr I use this solution for the quick posts.
Another warranty for the readers are the science blog networks, like FoS: they are generally constituted by researchers and theachers that tell science with passion and competence.
And, in conclusion:
Best regards to all, and read science!
What is the basis of the article? Science news originates from several places. Often it's a scientific paper. These papers come in several varieties. The ones that report a real study--lots of people or mice or flies, lots of data, lots of analysis, a hypothesis tested, statistics done--is considered "original research." Those papers are the only ones that are genuinely original scientific studies. Words to watch for--terms that suggest no original research at all--are "review," "editorial," "perspective," "commentary," "case study" (these typically involve one or only a handful of cases, so no statistical analysis), and "meta-analysis." None of these represents original findings from a scientific study. All but the last two are opinion. Also watch for "scientific meeting" and "conference." That means that this information was presented without peer review at a scientific meeting. It hasn't been vetted in any way.In this sense the use of Researchblogging is very useful for readers for two reasons: first of all the reader can know the blogger's seriousness, and secondary the widget can say the origin of the researches telled in the post.
Look at the original source of the information. Google is your friend. Is the original source a scientific journal? At the very least, especially for original research, the abstract will be freely available. A news story based on a journal paper should provide a link to that abstract, but many, many news outlets do not do this--a huge disservice to the interested, engaged reader. At any rate, the article probably includes the name of a paper author and the journal of publication, and a quick Google search on both terms along with the subject (e.g., autism) will often find you the paper. If all you find is a news release about the paper--at outlets like ScienceDaily or PhysOrg--you are reading marketing materials. Period. And if there is no mention of publication in a journal, be very, very cautious in your interpretation of what's being reported.ScienceDaily usually proposes also the link the paper (or to the draft version) also when it isn't in the original press release. In general ScienceDaily and PhysOrg reprint the press release written by the university or by the research team, and if you want read the original press release you can use Google.
I published press release in two cases: in the first case I published the text sended me by a friend about the results of his team research. In the second, recent case I publish some paragraphs from the original press release published on web, embedding some original paragraphs.
In general I try to publish original posts, but sometimes I cannot write post such that, so I use the abstracts (that I publish especially on posterous) or the press release on this blog. Instead on tumblr I use this solution for the quick posts.
Another warranty for the readers are the science blog networks, like FoS: they are generally constituted by researchers and theachers that tell science with passion and competence.
And, in conclusion:
Ask a scientist. Twitter abounds with scientists and sciencey types who may be able to evaluate an article for you. I receive daily requests via email, Facebook, and Twitter for exactly that assistance, and I'm glad to provide it. Seriously, ask a scientist. You'll find it hard to get us to shut up. We do science because we really, really like it. It sure ain't for the money.In this case I simply share my twitter account, @ulaulaman, and my GPlus account, Gianluigi Filippelli, but if you want ask something or submit a post, you can use also the tumblr form.
Best regards to all, and read science!
A universe from nothing
I would share with you a talk by Lawrence Krauss, physics and writer (The Physics of Star Trek) about the universe:
Thanks to Fabio De Sicot (twitter, Google Plus)