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In quantum computing, a qubit (short for quantum bit) is the fundamental unit of information. It is the quantum analogue of a classical bit, which is the basic unit of information in classical computing. While classical bits can represent either a 0 or a 1, qubits can exist in a superposition of both states simultaneously.

The state of a qubit is described by a mathematical construct known as a quantum state vector. This vector represents the probability amplitudes associated with the possible states of the qubit. In a classical bit, the state vector would have two entries, corresponding to the probabilities of the bit being 0 or 1. In contrast, a qubit can be described by a superposition of these two states, where the state vector can have complex numbers as amplitudes.

Mathematically, a qubit can be represented as α|0⟩ + β|1⟩, where α and β are probability amplitudes, and |0⟩ and |1⟩ are the basis states corresponding to the classical 0 and 1 states. The probability of measuring the qubit in state |0⟩ is |α|^2, and the probability of measuring it in state |1⟩ is |β|^2. The probabilities are determined by the magnitudes of the probability amplitudes.

The ability of a qubit to exist in a superposition of states allows quantum computers to perform computations in parallel and explore multiple possibilities simultaneously. By manipulating and interacting with multiple qubits, quantum algorithms can take advantage of this parallelism to solve certain problems more efficiently than classical computers.

It's important to note that qubits are highly sensitive to environmental disturbances, such as noise and decoherence, which can cause errors in quantum computations. Managing and mitigating these effects is one of the key challenges in building practical quantum computers.

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