Multiple qubits can become entangled. Their fates are linked. Measuring one instantly influences the state of the others based on the entanglement type:
Same Spins: All qubits will have identical spin states
Opposite Spins: Only for 2 qubits, they will have opposite spin states
Alternate Spins: Spins alternate in a pattern (up, down, up, down...)
State:
How Quantum Entanglement Works
In quantum mechanics, entangled particles share a quantum state regardless of distance. When you measure one particle, you instantly know the state of its entangled partners.
This simulation demonstrates three common entanglement patterns:
Click "Create/Reset Pair" to generate a new set of entangled qubits in superposition (spinning state)
Click "Measure All" to collapse the wave functions and observe the entanglement relationship
You can also click individual qubits to measure just that one and observe how it affects the others