Some problems are too complex for classical computers. Here's why quantum computers matter:
| Problem | Classical Computer | Quantum Computer |
|---|---|---|
| Factor large numbers | Takes years | Minutes (Shor's Algorithm) |
| Search unstructured data | Linear scan | √n steps (Grover’s Algorithm) |
| Simulate molecules | Impossible | Efficient |
A collapsing quantum star unleashes multiversal explosions across space, time, and probability itself.
Even when one particle is on Earth and the other in space, they remain entangled, change one, the other responds instantly.
Ready to test entanglement across space
Experience how particles tunnel through barriers in a quantum world with energy pulses, light effects, and dynamic motion.
Click the button to test if your particle can quantum tunnel!
This mysterious planet pulses in a superposition state. Observe it, and it collapses into reality…
Enter a swirling quantum vortex where particles bend space, twist time, and obey no logic but quantum rules!
You cannot precisely measure both the position and momentum of a particle at the same time.
Watch a quantum particle enter a gateway and exist in many places... until you observe it!
You are now inside a sealed quantum lab. On the metal table lies a mysterious black box...
The box contains:
Pick a quantum concept to explore its meaning and watch a short video explanation.
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Click a site to explore trusted resources about quantum physics and concepts.
Quantum Country
Feynman's Lectures
Quantum Magazine