Complex Numbers
Complex numbers form the language of quantum amplitudes. Each amplitude has both magnitude and phase: α = r e^(iθ). The imaginary unit i defines rotation in the complex plane. In quantum systems, phase differences create interference, constructive or destructive, allowing quantum algorithms to amplify correct outcomes and cancel wrong ones. Without i, superposition would exist but interference, the true quantum magic, would not.
Complex Vector (Argand Diagram) Simulator
Visualize the relationship between the Cartesian form (a + bi) and the Polar form (|z|e^(iθ)) of a complex number.
Vector Visualization (Argand Plane)
Real Vectors (Blue)
Real Component (a)
3.00
Cartesian Form (z)
z = 3.00 + 4.00i
Magnitude (Length) |z|
5.00
Formula: √(a² + b²)
Imaginary Vectors (Red)
Imaginary Component (b)
4.00i
Phase Angle (Argument) θ
53.13° (0.93 rad)
Formula: arctan(b/a)