⚛️ Quantum Superposition Visualizer

See the difference between classical bits and quantum qubits

🔘 Classical Bit
0
Deterministic State
Measurement Outcome
|0⟩
100%
|1⟩
0%
A classical bit is always in one definite state: either 0 OR 1. No ambiguity.
⚛️ Quantum Qubit
0 & 1
Superposition State
Measurement Probabilities
|0⟩
50%
|1⟩
50%
A qubit can exist in superposition: both 0 AND 1 simultaneously until measured!
⚙️ Control Qubit Superposition
Probability of |0⟩: 50% Probability of |1⟩: 50%
📐 The Mathematics of Superposition

A qubit in superposition can be written as:

|ψ⟩ = 0.71|0⟩ + 0.71|1⟩

Where α and β are complex probability amplitudes. The probability of measuring |0⟩ is |α|² and measuring |1⟩ is |β|². These probabilities must sum to 1: |α|² + |β|² = 1

🌊 Wave Function Visualization

Before measurement, the qubit exists as a probability wave: