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Support the channel and its universe ►Tipeee: https://www.tipeee.com/baladementale To listen to me visually say anything ►Instagram: / baladementale ►Twitter: / baladementale To support us: ►Facebook: / baladementale The two previous episodes: The quantum experiment that transformed our way of seeing the world: Young's double slit • The quantum experiment that transfor... What does an atom really look like? • What does an atom really look like? My BOOK 34 small and big secrets of the universe: https://amzn.to/3xy7a2i Other visual deliriums: https://teespring.com/stores/balade-m... 00:00 - The quantum world 00:52 - Wave-corpuscle duality 02:59 - The Principle of State Superposition 04:20 - An indeterminate reality 05:57 - Quantification 08:00 - Are we quantum? 09:21 - Heisenberg's uncertainty principle 12:19 - The Tunnel Effect 16:59 - Admitting defeat with entanglement Where do some of the sources flow from? Some of the images come from the great site http://www.toutestquantique.fr produced by Data-Burger, scientific advisor: J. Bobroff, with the support of: Univ. Paris Sud, SFP, Triangle de la Physique, PALM, Sciences à l'Ecole, ICAM-I2CAM. This video owes a lot to the book “la quantique autrement” by physicist Julien Bobroff coeur en forme d'atom on his way of explaining! A great site to delve into quantum: https://hebergement.universite-paris-... As for entanglement, David Louarpe from Science vivante made a video that can help you understand this crazy phenomenon much better than I can: • Quantum entanglement -------------------- The first of these great discoveries is that at the nanometric scale the behavior of the elements found there is extremely different from those of the world around us and which we call classical, because quantum objects such as an electron, a photon or even a neutron can behave both as a wave AND as a particle. Take a so-called classical object, for example a telephone and swing it towards a wall with two slits. You will only have one possibility for each throw, either it goes through one of them, or it crashes into the wall and bounces back. And each time, if you filmed the experiment, you know exactly where it was and what happened to it. But for subatomic particles, things are different, when they move, we realized that they can take - at the same time - all possible paths. And it is only when we try to measure where a particle is, that it suddenly reduces to a point. In other words, at the nanometric scales of reality, quantum objects can occupy several positions at the same time, go through several paths at the same time. #MentalWalk #quantum