quantum education has been increasingly emphasized at both the post-secondary and secondary education stages, in line with the advent of the quantumcomputing paradigm. Traditional quantumcomputing education, however...
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(纸本)9798331541378
quantum education has been increasingly emphasized at both the post-secondary and secondary education stages, in line with the advent of the quantumcomputing paradigm. Traditional quantumcomputing education, however, necessitates an extensive background in physics, mathematics, and information science, which can be challenging for beginners. This study presents the experience of implementing a college curriculum at National Chi Nan University in Taiwan, designed to enable learners at all levels to grasp the concept of a quantum algorithm using accessible math yet rigorous enough for verification. The study succinctly conveys the concept of the quantum Grover algorithm, provides necessary background knowledge, and elucidates the ideas using three distinct visualization methods. Furthermore, this study offers a novel presentation for aligning the results of geometrical representation with the corresponding quantum circuit layout. The hands-on project demonstration motivates learners to explore solutions using their visualization tool, enhancing their engagement and sense of achievement. Developing these tools deepens learners' understanding and promotes active peer education, thereby improving their participation and retention of quantum knowledge. The visualization tools developed through this process serve as a valuable contribution to quantum education, offering an effective quantum tool and a user-friendly interface for learning, teaching, researching, and providing fresh insights and perspectives. By making quantumcomputing concepts more understandable through accessible math and visualization, we aim to lower the entry-level barrier to learning quantumcomputing, encouraging more talents to engage in quantumcomputing for their research studies.
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