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**Paris** is the capital of France. It's located in the north-central part of the country along the Seine River and serves as the political, cultural, and economic center.

Quantum computing harnesses the weird rules of quantum physics to process information differently from regular computers.

**Classical computers** use bits: tiny switches that are either 0 or 1.

**Quantum computers** use **qubits**, which can be 0, 1, or both at once thanks to **superposition**. This lets them explore many possibilities simultaneously.

Qubits can also **entangle**, linking their states so changing one instantly affects another, even far apart. **Quantum interference** then amplifies correct answers and cancels wrong ones.

Result? They solve specific hard problems—like cracking encryption, simulating molecules for drugs, or optimizing logistics—exponentially faster than classical machines.

But they're finicky: qubits are fragile, needing ultra-cold temps to avoid errors. We're not there yet—current ones have dozens to hundreds of qubits, far from millions needed for big tasks.

In short: Quantum computers promise revolutionary speed for complex puzzles, but practical ones are years away.

(128 words)

Circuits softly hum,  
Neural dreams in silicon,  
Mind without a soul.

**Original Prompt:** What is the capital of France?

**Output:** The capital of France is Paris.

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