However, and somewhat surprisingly, there is increasing evidence that nature-an engineer with billions of years of practice-has learned how to use quantum mechanics to function optimally. Research in quantum mechanics is usually geared toward technology. Things you might not expect happen in the quantum world, like electrons "tunneling" through tiny energy barriers and appearing on the other side unscathed, or being in two different places at the same time in a phenomenon called superposition. Instead, tiny objects behave according to a different set of laws known as quantum mechanics.įor humans, who can only perceive the macroscopic world, or what's visible to the naked eye, quantum mechanics can seem counterintuitive and somewhat magical. It has been known for more than a century that the rules of classical mechanics, like Newton's laws of motion, break down at atomic scales. Quantum effects are phenomena that occur between atoms and molecules that can't be explained by classical physics. And yet, the extent to which quantum effects influence living systems remains barely understood. Over the past few decades, scientists have made incredible progress in understanding and manipulating biological systems at increasingly small scales, from protein folding to genetic engineering. But this may one day be a possibility through the emerging field of quantum biology. It sounds like something from the imagination of an overly optimistic science fiction writer. Imagine using your cellphone to control the activity of your own cells to treat injuries and disease. CS 231 - Convolutional Neural Networks for Visual Recognition.COMP3222/COMP6246 - Machine Learning Technologies. ![]() Microsoft Professional Program for Data Science.Data Science and Analytics in Context by Edx.Machine Learning – 5 Steps Courses, A Specialization on Coursera.Data Mining - 5 Steps Courses, A Specialization on Coursera.Data Science - 9 Steps Courses, A Specialization on Coursera.Or CLICK on the little FUNNEL symbol at the You can also type your own query: e.g., you are looking for articles involving " DNA" as a keyword To do so, click the FIND button (symbolized by the FUNNEL on the top right of the screen) and display all the relevant postings SORTED by TOPICS. NOTE: All articles in the amazing-science newsletter can also be sorted by topic. This newsletter is aggregated from over 1450 news sources:Īll my Tweets and Scoop.It! posts sorted and searchable: Benedikt Bitterli - Beautiful 4K video with loving attention to image quality.Aggott Hönsch István - A taxonomy of critters living in the Buddhabrot.Scott Seligman - 131,072 x 131,072 pixel Buddhabrot in Google Maps! Zoom in deep.Daniel & Michal Dichter - "Colored Orbit" Buddhabrots.Nurullah Akkaya - Buddhabrot implemented in Clojure.William Milberry - A beautify choreographed and rendered video b-brot.Johann Korndoerfer - Renders a ridiculously large Buddhabrot.Iñigo Quilez - His attention to details gives beautiful results.Andrew M (argus) - Not very pretty but very high resolution.Dan Vanderkam - Generated some early high-resolution b-brots.Albert Lobo - Amazing results! Don't miss his high-res animation, low-res YouTube here.Alex Boswell - Found a breakthrough technique that allows zooming using the Metropolis-Hastings algorithm.Hans Liss - A better colored b-brot applet.Ryan Sweny - Inclludes colored b-brot image and applet. ![]() Jared Tarbell - Sells nice b-brot posters.Jean-Michel Sarlat - In French with nice colored results.Jason Rampe - Describes some useful speed-ups. ![]()
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