Quantum Computers Are Breaking Physics — Richard Feynman Explained Why

Discover why quantum computers seem to break the rules of reality — and why the physics behind them is far stranger than anyone expected. This video explores superposition, entanglement, and the limits of classical computation, revealing why nature itself processes information in a fundamentally different way. We’re used to thinking of computers as machines that follow clear, logical steps. But at the quantum level, particles don’t behave logically at all. In this video, we dive into how quantum systems can explore multiple possibilities at once, why observation changes outcomes, and how this challenges everything we thought computation was. Learn how information becomes physical, why classical computers hit a wall, and how quantum mechanics opens a door that feels almost impossible. Once you understand what’s really happening, it will feel like physics itself is being rewritten. 📩 Get our stories in your inbox → https://physicsafterdark.kit.com/34bf... 📑 CHAPTERS 0:00 - Introduction 1:20 - Why Classical Computers Hit a Limit 3:55 - Superposition: Many States at Once 7:10 - Entanglement: Instant Correlation Across Space 10:42 - Measurement: Why Observation Changes Reality 13:58 - Why Quantum Computers Feel Impossible 17:20 - The Future of Computation 📚 SOURCES & FURTHER READING Richard Feynman – Simulating Physics with Computers (1981) David Deutsch – Quantum computation theory (1985) Peter Shor – Shor’s Algorithm (1994) John Preskill – Quantum information and NISQ era #feynman #quantumcomputing #physics #quantummechanics #technology #scienceexplained