 | What is quantum tunneling? Transcript: http://www.davidcolarusso.com/blog/?p=33#more-33 This video is an adaptation of an earlier piece of mine--Perspective on quantum mechanical tunneling. That film, however, was designed for a unique audience, and I felt its overall length was limiting its appeal here. So I've repackaged it as one of my weekly postings. I Hope you enjoy. People have been asking for the math. So here it is. The Sun's core temp is ~13.6 MK. For hydrogen nuclei the Coulomb barrier is roughly 0.1 MeV. This corresponds to a temperature in excess of 1 GK! Luckily, tunneling and the distribution of speeds among nuclei lower the actual temperature required. So without tunneling even the Sun's core isn't hot enough for fusion. To see most of this worked through, check out this link: http://burro.cwru.edu/Academics/Astr221/StarPhys/coulomb.html for a less mathematical explanation, try: http://en.wikipedia.org/wiki/Nuclear_fusion#Requirements Transcript: http://www.davidcolarusso.com/edblog/?p=41 The Tabletop Explainer is an intermittent educational vlog presenting answers to viewer questions, brief science lessons, and ideas for teachers and students. It is a feature of my blog "Tilts at Windmils" which can be found at http://www.davidcolarusso.com/blog/ |
 | Quantum Computer plays SudoQ D:Wave demonstrates a quantum computer playing a simple game |
 | jQuery Google Tech Talks April, 3 2008 ABSTRACT jQuery is a JavaScript library that stands out among its competitors because it is faster, focuses on writing less code, and is very extensible. In this talk, I will explore jQuery and how to use it. I will start off talking about the basics of using jQuery. Then, I will talk about building plugins. Finally, time permitting, I will take apart some plugins and talk about how they work, and I will show the nitty gritty details of the library. Speaker: Dmitri Gaskin Dmitri Gaskin drinks code with his cereal for breakfast every morning. He's a jQuery whiz and a Drupal know-it-all. He contributes patches for both Open Source projects. In the Drupal world, he maintains many modules, is on the security team, and is involved in the upcoming Summer of Code as a mentor and administrator. Dmitri has given many talks on Drupal and jQuery, in such places as Logitech, Drupalcon and live on a radio show out of L.A. When Dmitri isn't coding, a very rare occurrence, he is playing and composing contemporary music. And attending classes in the 6th grade. (He's only 12.) |
 | Don't Make Me Click Google Tech Talks April, 2 2008 ABSTRACT What's made Google search, Facebook, the iPod, and Firefox household names? They all keep interaction to a minimum. The best presentation of content is the one which requires the least number of clicks and choices. Information overload is daunting: Few clicks and choices means more people stay and use your site. Avoiding interaction seduction allows you to create interfaces that are easier to learn and faster to use with surprisingly delightful interfaces. As an example, we'll see what Google search would have looked like if the Lobby For Advancement Of Carpal-Tunnel Syndrome had got their way. Speaker: Aza Raskin Aza gave his first talk on user interface at age 10 and got hooked. At 17, he was talking and consulting internationally; at 19, he coauthored a physics textbook because he was too young to buy alcohol; at 21, he started drinking alcohol and co-founded Humanized. Two years later, Aza founded Songza.com, a minimalist music search engine that had over a million song plays during it's first week of operation. After Humanized was sucked into Mozilla, Aza became Head of User Experience for Mozilla Labs. In another life, Aza has done Dark Matter research at both Tokyo University and the University of Chicago, from where he graduated with honors in math and physics. When not working (ha!) Aza enjoys playing music and punning. |
 | CBR for Game AI Google Tech Talks April, 3 2008 ABSTRACT Computer games are an increasingly popular application for Artificial Intelligence (AI) research, and conversely AI is an increasingly popular selling point for commercial games. Although games are typically associated with entertainment applications, there are many "serious" applications of gaming, including military, corporate, and advertising applications. There are also what the so called "humane" gaming applications—interactive tools for medical training, educational games, and games that reflect social consciousness or advocate for a cause. Game AI is the effort of taking computer games beyond scripted interactions, however complex, into the arena of truly interactive systems that are responsive, adaptive, and intelligent. Such systems learn about the player(s) during game play, adapt their own behaviors beyond the pre-programmed set provided by the game author, and interactively develop and provide a richer experience to the player(s). In this brown bag, I will discuss a range of CBR approaches for Game AI. I will discuss differences and similarities between character-level AI (in embedded NPCs, for example) and game-level AI (in the drama manager or game director, for example). I will explain why the AI must reason at multiple levels, including reactive, tactical, strategic, rhetorical, and meta, and propose a CBR architecture that lets us design and coordinate real-time AIs operating asynchronously at all these levels. I will conclude with a brief discussion on the very idea of Game AI: is it feasible? realistic? and would we call it "intelligence" if we could implement all this stuff? Speaker: Dr. Ashwin Ram Dr. Ashwin Ram is an Associate Professor and Director of the Cognitive Computing Lab in the College of Computing at Georgia Tech, an Associate Professor of Cognitive Science, and an Adjunct Professor in Psychology at Georgia Tech and in MathCS at Emory University. He received his PhD from Yale University in 1989, his MS from University of Illinois in 1984, and his BTech from IIT Delhi in 1982. He has published 2 books and over 100 scientific articles in international forums. He is a founder of Enkia Corporation which provides AI software for information assurance and decision support. |
 | World's First 16 qubit Quantum Computer Demo Speech DWave demonstrates a quantum computer. This is the intro speech |
 | The Bloom filter Google Tech Talks November, 15 2007 ABSTRACT The Bloom filter, conceived by Burton H. Bloom in 1970, is a space-efficient probabilistic data structure that is used to test whether an element is a member of a set. False positives are possible, but false negatives are not. Elements can be added to the set, but not removed (though this can be addressed with a counting filter). The more elements that are added to the set, the larger the probability of false positives. For example, one might use a Bloom filter to do spell-checking in a space-efficient way. A Bloom filter to which a dictionary of correct words has been added will accept all words in the dictionary and reject almost all words which are not, which is good enough in some cases. Depending on the false positive rate, the resulting data structure can require as little as a byte per dictionary word. In the last few years Bloom filter become hot topic again and there were several modifications and improvements. In this talk I will present my last few improvements in this topic. Speaker: Ely Porat Ely Porat received his Doctorate from Bar-Ilan University in 2000. Following that, he fulfilled his military service and, in parallel, worked as a faculty member at Bar-Ilan University. Having spent the spring 2007 semester as a Visiting Scientist in Google, he is now back at Bar-Ilan University. The main body of Ely Porat's work concerns matching problems: string matching, pattern matching, subset matching. He also worked on the nearest pair problem in high-dimensional spaces as well as sketching and edit distance. |
 | Quantum Bits - RIKEN Quantum Computer : DigInfo DigInfo - http://movie.diginfo.tv - If you ever forgot your school locker combination, trying to open it by guessing took forever and that was just three numbers. Imagine if it was over 300 numbers. That's where the RIKEN institute come in with their research of a quantum computer. Quantum computers are capable of solving problems with incredibly large numbers because they operate exponentially faster than regular computers for certain problems. These can be used for breaking codes, not in lockers, but in internet banking and security sites. Currently, Quantum computers have only 1 or 2 quantum bits but, RIKEN is hoping to improve this power. While there are concerns about internet security these computers are intended to solve complex scientific problems. |
 | Merlin Mann on Time and Attention (Getting Things Done) Google Tech Talks March, 31 2008 ABSTRACT Merlin Mann is the creator of the Getting Things Done oriented web site 43folders.com and a GTD Guru in his own right. He came and did a tech talk last summer called Inbox Zero which was packed, and can be seen at http://youtube.com/watch?v=z9UjeTMb3Yk (and is highly recommended). This time Merlin is coming in to talk to us about time and attention, and how to maximize both. If you think you don't have time to come to this tech talk, then you are likely one of the people who needs it most! Speaker: Merlin Mann Creator of the 43 folders GTD focused web site and several others. Also regular on the This Week in Tech podcast and Macbreak weekly. |
 | Lecture 1 | Modern Physics: Quantum Mechanics (Stanford) Lecture 1 of Leonard Susskind's Modern Physics course concentrating on Quantum Mechanics. Recorded January 14, 2008 at Stanford University. This Stanford Continuing Studies course is the second of a six-quarter sequence of classes exploring the essential theoretical foundations of modern physics. The topics covered in this course focus on quantum mechanics. Leonard Susskind is the Felix Bloch Professor of Physics at Stanford University. Complete playlist for the course: http://youtube.com/view_play_list?p=189C0DCE90CB6D81 Stanford Continuing Studies: http://continuingstudies.stanford.edu/ About Leonard Susskind: http://www.stanford.edu/dept/physics/people/faculty/susskind_leonard.html Stanford University channel on YouTube: http://www.youtube.com/stanforduniversity |
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