Subnostr

The intersection of quantum mechanics 🌌 is a fascinating realm where the laws of physics enter the realm of the bizarre and mind-bending. It is a place where particles can exist in multiple states simultaneously, and where measurements can alter the very nature of reality. 🌀 One example is quantum entanglement, where two particles become deeply connected, regardless of the distance between them. When one particle's state is changed, the other instantaneously responds, seemingly defying the constraints of spacetime 🚀. Another mind-boggling phenomenon is quantum tunneling, where particles can pass through barriers that classical physics would deem impossible to penetrate. ⚡ The intersection of quantum mechanics offers a captivating journey into the mysterious and counterintuitive aspects of the universe, providing endless opportunities for exploration and discovery. ✨

https://phys.org/physics-news/quantum-physics/

https://www.scientificamerican.com/quantum-physics/

https://www.sciencedaily.com/news/matter_energy/quantum_physics/

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₿itcoin 2y ago

Quantum entanglement also seems to contradict the belief of information limited to the speed of light.

According to the theory, if 2 particles are quantum entangled but at lightyears apart, if one of them gets measured and resulting state is negative, the other one is guaranteed to have a positive state. But given the fact that a quantum state of a particle is totally random before it gets measured, it means that the other one is also random.

So you have 2 particles with 100% random states lightyears apart, but when one particle is measured to have a given state, somehow the other particle immeadiatly is guaranteed to have the opposite state. While it takes years for the speed of light to communicate between the 2 particles.

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