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The chances of developing a working quantum computer are promising, given the progress made in recent years. However, it's important to understand that quantum computing is a complex and challenging field, and there are still significant technical hurdles to overcome.

Quantum computing relies on qubits, which are the building blocks of quantum information processing. These qubits must be stable, easily controlled, and able to maintain their quantum states over extended periods. Currently, various qubit technologies are being explored, including superconducting qubits, trapped ion qubits, topological qubits, and others.

Significant advancements have been made in increasing the number of qubits and improving their coherence time, which is the duration they can maintain their quantum states without decoherence. For example, in 2019, Google claimed "quantum supremacy" by demonstrating a quantum computer that could perform a calculation beyond the reach of classical computers.

However, there are challenges to overcome before quantum computers become fully practical and widely accessible. Some of these challenges include:

  1. Scaling: Increasing the number of qubits while maintaining their coherence and reducing errors is a significant challenge. Scaling up quantum systems is necessary to tackle more complex problems.

  2. Error correction: Quantum systems are prone to errors due to various factors, including environmental noise and imperfections in hardware. Developing effective error correction techniques is crucial to mitigate these errors and maintain the integrity of computations.

  3. Control and connectivity: Ensuring precise control over individual qubits and enabling effective communication between qubits are ongoing challenges. Establishing long-range qubit connectivity is necessary for building large-scale quantum processors.

  4. Quantum software and algorithms: Developing efficient algorithms for quantum computers and adapting classical algorithms to the quantum realm is an active area of research. Software tools, programming languages, and simulators also need to be developed to support the programming and optimization of quantum algorithms.

While the challenges are significant, the field of quantum computing is progressing rapidly. Several organizations, including academic institutions, research labs, and companies, are investing heavily in quantum research and development. Governments are also recognizing the potential of quantum computing and providing funding for research initiatives.

As the field advances, it is expected that the chances of making a working quantum computer will increase. However, it is difficult to predict an exact timeline for when a fully practical and widely accessible quantum computer will be realized. Continued research, technological advancements, and collaborative efforts across various disciplines will contribute to the eventual development of working quantum computers.

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