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NOVA presents a show on Einstein and Quantum Entanglement:
DarMM said:What are talking about @bhobba ? It needs more sensationalization not less.
I think this is a real issue. What do you actually say to non-experts?bhobba said:Other issues are they do not make clear QM does not say objects do not exist before measurement and the other stuff along those lines - QM is silent on the issue. Reading things like that into is interpretation territory.
What do you mean by preclude correlation?bhobba said:And as far as locality goes to me the cluster decomposition property of Weinberg suggests you preclude correlations anyway.
DarMM said:Bohr and Einstein in a cage fight, maybe with velociraptors over a volcano. Get Bohr to deliver a cool line at the end. "Sorry Albert, the world isn't predetermined, but this fight was!" before he throws Einstein into the volcano.
DarMM said:I think this is a real issue. What do you actually say to non-experts?
DarMM said:What do you mean by preclude correlation?
The "NOVA Show on Einstein and Quantum Entanglement" is a documentary that explores the groundbreaking work of Albert Einstein and his theory of quantum entanglement. It delves into the concept of entanglement, which is the phenomenon where two particles become connected in such a way that the state of one particle affects the state of the other, even when they are separated by large distances.
Einstein's theory of quantum entanglement is significant because it challenges our understanding of the fundamental laws of physics. It suggests that particles can be connected in ways that were previously thought to be impossible, and it has potential applications in fields such as quantum computing and secure communication.
Einstein's work on quantum entanglement began with his famous paper on the photoelectric effect, which laid the groundwork for quantum mechanics. He then collaborated with other scientists to develop the EPR paradox, a thought experiment that demonstrated the bizarre implications of quantum entanglement. While he was initially skeptical of the concept, his work ultimately helped pave the way for further research in this area.
Quantum entanglement has potential applications in fields such as quantum computing, cryptography, and teleportation. It could also lead to advancements in communication technology, as entangled particles could be used to send information securely over long distances.
While quantum entanglement has been demonstrated in numerous experiments, it is still a topic of ongoing research and debate. Some scientists argue that there may be alternative explanations for the observed phenomena, while others believe that entanglement is a fundamental aspect of the universe. As our understanding of quantum mechanics continues to evolve, so too will our understanding of entanglement.