The Many Hidden Worlds of Quantum Mechanics — Season 1, Episode 9: Entanglement Leads to Many Worlds

Episode synopsis

Use concepts developed in the course so far to learn how physicist Hugh Everett arrived at a bold new approach to quantum mechanics. Called the Many-Worlds Interpretation, it holds that the wave function represents reality and evolves smoothly into multiple distinct worlds when a quantum measurement takes place. Contrast Everett's straightforward idea with the opaque Copenhagen Interpretation.

About The Many Hidden Worlds of Quantum Mechanics

One universe is not enough. Learn about the Many-Worlds Interpretation of quantum mechanics in this exciting course taught by a renowned expert, Sean Carroll.

More episodes from Season 1

• E1Why Suppose There's More Than One World?
• E2The Classical Physics World That Never Was
• E3Quantum Worlds Start With Waves and Particles
• E4A Wave Function to Describe Particles
• E5Copenhagen Says the Wave Function Collapses
• E6Is the Wave Function Real?
• E7Uncertainty in Action With Spin and Qubits
• E8Quantum Entanglement and Action at a Distance
• E10Decoherence Explains Branching Worlds
• E11How Entanglement Powers Quantum Computers
• E12Too Many Worlds! Five Objections Answered
• E13Testing the Many-Worlds Interpretation