There’s a really important message here…
stay in school or else
Originally shared by David Brin
The recent discovery of quantum vibrations in microtubules inside brain neurons appears to corroborate claims that consciousness derives from deeper-level, finer-scale activities inside brain neurons. The eminent mathematical physicist Sir Roger Penrose in the 1990s suggested that quantum vibrational computations in microtubules were “orchestrated” (“Orch”) by synaptic inputs and memory stored in microtubules. They may be the seat of stored information that neurons (and glia exchanges) intermediate. Moreover, in a new development it is thought that Microtubule quantum vibrations (e.g. in the megahertz frequency range) appear to interfere and produce much slower EEG “beat frequencies.”
http://www.sciencedirect.com/science/article/pii/S1571064513001188
A lead author suggests “Consciousness depends on anharmonic vibrations of microtubules inside neurons, similar to certain kinds of Indian music, but unlike Western music, which is harmonic.” How cool and weird! Only I am less interested in the mystical implications about roots of consciousness than whether this nails in “intracellular computing” as a major part of brain function. If so, then that boosts by many orders of magnitude how many transactions take place to comprise our minds. And many more Moore’s Law doublings will be needed before that number can be replicated, in silico.
Originally shared by Douglas County DFL
Yet more evidence that Democratic States are better run than GOP States
Rankings based on 14 measurements of raw data that Politico Magazine rounded up “from reputable sources like the Census Bureau, the Centers for Disease Control and Prevention, and the FBI, and on important factors such as high school graduation rates, per capita income, life expectancy and crime rate.” http://www.politico.com/magazine/story/2014/01/states-of-our-union-are-not-all-strong-102547.html
One can also examine other metrics to see this very clear pattern:
Red States rake in far more in federal tax revenue than they contribute. More of that borrow and spend fiscal conservatism! http://www.politifact.com/truth-o-meter/statements/2012/jan/26/blog-posting/red-state-socialism-graphic-says-gop-leaning-state/
More comparisons:
http://www.nytimes.com/imagepages/2009/06/27/opinion/20090627blowchart.html
http://www.vaughns-1-pagers.com/politics/red-blue-states-summary.htm
Originally shared by John McGarvey
HOW TO MAKE SYMBOLS WITH KEYBOARD
Alt + 0153….. ™… trademark symbol
Alt + 0169…. ©…. copyright symbol
Alt + 0174….. ®….registered trademark symbol
Alt + 0176 …°……degree symbol
Alt + 0177 …±….plus-or-minus sign
Alt + 0182 …¶…..paragraph mark
Alt + 0190 …¾….fraction, three-fourths
Alt + 0215 ….×…..multiplication sign
Alt + 0162…¢….the cent sign
Alt + 0161…..¡….. .upside down exclamation point
Alt + 0191…..¿….. upside down question mark
Alt + 1………..smiley face
Alt + 2 ……☻…..black smiley face
Alt + 15…..☼…..sun
Alt + 12……♀…..female sign
Alt + 11…..♂……male sign
Alt + 6…….♠…..spade
Alt + 5…….♣…… Club
Alt + 3…………. Heart
Alt + 4…….♦…… Diamond
Alt + 13……♪…..eighth note
Alt + 14……♫…… beamed eighth note
Alt + 8721…. ∑…. N-ary summation (auto sum)
Alt + 251…..√…..square root check mark
Alt + 8236…..∞….. infinity
Alt + 24…….↑….. up arrow
Alt + 25……↓…… down arrow
Alt + 26…..→…..right arrow
Alt + 27……←…..left arrow
Alt + 18…..↕……up/down arrow
Alt + 29……↔… left right arrow
Originally shared by Corina Marinescu
Melanoma
Focusing on the cellular biology of melanocytes, this 3D visualization details the rising incidence of melanoma and the importance of early detection.
Animation via XVIVO
Originally shared by Dragos Ruiu
Host Protected Area: the hidden section on your disk drive accessible by using addresses past the end of your drive (which your OS usually doesn’t let you do).
https://en.wikipedia.org/wiki/Host_protected_area
Tools to manipulate this hidden area:
– HDAT2 https://www.hdat2.com/
– hparemove (not found)
– MHDD http://hddguru.com/software/2005.10.02-MHDD/
– TAFT http://www.vidstrom.net/stools/taft/
– hdaparm Windows https://sites.google.com/site/disablehddapm/ (and hdaparm Linux)
– IBM.Hitachi Drive Feature Tool http://hddguru.com/software/2006.01.20-Hitachi-Drive-Feature-Tool/
– Sleuth Kit http://www.sleuthkit.org/
– FreeBSD hw.ata.setmax sysctl
Originally shared by Terence Tao
There is a lot of discussion in various online mathematical forums currently about the interpretation, derivation, and significance of Ramanujan’s famous (but extremely unintuitive) formula
1+2+3+4+… = -1/12 (1)
or similar divergent series formulae such as
1-1+1-1+… = 1/2 (2)
or
1+2+4+8+… = -1. (3)
One can view this topic from either a pre-rigorous, rigorous, or post-rigorous perspective (see this page of mine for a description of these three terms: http://terrytao.wordpress.com/career-advice/there%E2%80%99s-more-to-mathematics-than-rigour-and-proofs/ ). The pre-rigorous approach is not particularly satisfactory: here one is taught the basic rules for manipulating finite sums (e.g. how to add or subtract one finite sum from another), and one is permitted to blindly apply these rules to infinite sums. This approach can give derivations of identities such as (1), but can also lead to derivations of even more blatant absurdities such as 0=1, which of course makes any similar derivation of (1) look quite suspicious.
From
a rigorous perspective, one learns in undergraduate analysis classes the notion of a convergent series and a divergent series, with the former having a well defined limit, which enjoys most of the same laws of series that finite series do (particularly if one restricts attention to absolutely convergent series). In more advanced courses, one can then learn of more exotic summation methods (e.g. Cesaro summation, p-adic summation or Ramanujan summation) which can sometimes (but not always) be applied to certain divergent series, and which obey some (but not all) of the rules that finite series or absolutely convergent series do. One can then carefully derive, manipulate, and use identities such as (1), so long as it is made precise at any given time what notion of summation is in force. For instance, (1) is not true if summation is interpreted in the classical sense of convergent series, but it is true for some other notions of convergence, such as Ramanujan convergence, or a real-variable analogue of that convergence that I describe in this post:
From a post-rigorous perspective, I believe that an equation such as (1) should more accurately be rendered as
1+2+3+4+… = -1/12 + …
where the “…” on the right-hand side denotes terms which could be infinitely large (or divergent) when interpreted classically, but which one wishes to view as “negligible” for one’s intended application (or at least “orthogonal” to that application). For instance, as a rough first approximation (and assuming implicitly that the summation index in these series starts from n=1 rather than n=0), (1), (2), (3) should actually be written as
1+2+3+4+… = -1/12 + 1/2 infinity^2 (1)’
1-1+1-1+… = 1/2 – (-1)^{infinity} /2 (2)’
or
1+2+4+8+… = -1 + 2^{infinity} (3)’
and more generally
1+x+x^2+x^3+… = 1/(1-x) + x^{infinity}/(x-1)
where the terms involving infinity do not make particularly rigorous sense, but would be considered orthogonal to the application at hand (a physicist would call these quantities unphysical) and so can often be neglected in one’s manipulations. (If one wanted to be even more accurate here, the 1/2 infinity^2 term should really be the integral of x dx from 0 to infinity.) To rigorously formalise the notion of ignoring certain types of infinite expressions, one needs to use one of the summation methods mentioned above (with different summation methods corresponding to different classes of infinite terms that one is permitted to delete); but the above post-rigorous formulae can still provide clarifying intuition, once one has understood their rigorous counterparts. For instance, the formulae (1)’ and (3)’ are now consistent with the left-hand side being positive and diverging to infinity, and the formula (2)’ is consistent with the left-hand side being indeterminate in limit, with both 0 and 1 as limit points. The fact that divergent series often do not behave well with respect to shifting the series can now be traced back to the fact that the infinite terms in the above identities produce some finite remainders when the infinity in those terms is shifted, say to infinity+1.
For a more advanced example, I believe that the “field of one element” should really be called “the field of 1+… elements”, where the … denotes an expression which one believes to be orthogonal to one’s application.
Originally shared by Murray J Brown
Some wonderfully informative maps
I’ve always loved maps. When I was a kid I couldn’t wait to get my hands on whatever map was included within the covers of the monthly National Geographic magazine. I’d spend hours poring over them, imagining adventures to be taken, sketching the routes of travel plans, and hanging them on the walls of my room.
Maps can be a remarkably powerful tool for understanding the world and how it works, but they show only what you ask them to. You might consider this, then, a collection of maps meant to inspire your inner map nerd. I’ve searched far and wide for maps that can reveal and surprise and inform in ways that the daily headlines might not, with a careful eye for sourcing and detail. I’ve included a link for more information on just about every one. Enjoy.
Part 1: 40 maps that explain the world
http://www.washingtonpost.com/blogs/worldviews/wp/2013/08/12/40-maps-that-explain-the-world/
Part 2: 40 more maps that explain the world
http://www.washingtonpost.com/blogs/worldviews/wp/2014/01/13/40-more-maps-that-explain-the-world/
Originally shared by ****
I wrote up my steps for installing Ubuntu-Touch onto a Nexus 7 2012 using something other then Ubuntu, in my case, Fedora 20.
Feel free to comment.
Originally shared by Greg Kroah-Hartman
It’s probably old news to those who have really wanted to try SteamOS, but for those of you who have hesitated, or not had a dedicated box to use it on, with UEFI, you now have no excuse not try SteamOS out now with this great installer from Jo Shields
Now, go out there and play some games!