MIT Scientists Bridge Classical and Quantum Physics with New Mathematical Framework
Updated
Updated · BIOENGINEER.ORG · Apr 22
MIT Scientists Bridge Classical and Quantum Physics with New Mathematical Framework
3 articles · Updated · BIOENGINEER.ORG · Apr 22
MIT researchers have developed a mathematical framework that uses classical physics principles to precisely describe quantum phenomena.
By extending the classical principle of least action, they replicated quantum effects like the double-slit experiment and quantum tunneling with classical equations.
This breakthrough bridges the gap between classical and quantum mechanics, potentially simplifying quantum calculations and advancing quantum technology research.
Will this new framework make quantum physics simple enough for anyone to finally understand?
Is this the 'strong bridge' that could finally unite Einstein's relativity with quantum theory?
Can classical physics explain quantum entanglement, or has a new experiment already disproven this theory?
Could a 19th-century equation be the key to building practical quantum computers much faster?
Does this breakthrough mean the universe is not random, but governed by hidden classical rules?