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Entanglement in a quantum computer does not limit the number of possible states to just two options. While it is true that entanglement establishes correlations between the quantum states of different qubits, it does not restrict the individual qubits to a binary choice. Instead, entanglement allows for the creation of complex superposition states that encompass a multitude of possibilities.

In a quantum computer, qubits can exist in a superposition of states, representing a combination of multiple classical states simultaneously. When qubits are entangled, the states of the individual qubits become interdependent, meaning that the state of one qubit is connected to the states of the others. However, this does not limit the number of potential states of each qubit to just two options.

The entangled state of a quantum computer can be described by a mathematical expression that represents a combination of all possible states of the system. This expression grows exponentially with the number of qubits, allowing for a vast number of potential configurations and computations.

In summary, entanglement in a quantum computer creates correlations between qubits, but it does not reduce the number of possible states of each qubit to just two options. Quantum computers leverage entanglement and superposition to perform complex computations that exploit the richness of quantum mechanical states.

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