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Mic Fenech

Member of The Honor Society of Phi Kappa Phi
From Austin, Texas
Mic Fenech is a third year STEM Education Ph.D. student and Graduate Research Assistant at The University of Texas at Austin. His research interests center around how students' classroom experiences influence their attitudes towards mathematics and how those attitudes shape their identities as mathematicians. He is currently implementing an instructional model called Argument-Driven Mathematics in high school math classrooms to see how students' attitudes change when exposed to argumentation. He also helped develop the first year-long high school course on quantum computing that is currently in its third year of implementation. This course is now a part of the OnRamps dual enrollment program, allowing students to earn college credit while still in high school.
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Phi Kappa Phi Announces Graduate Research Grant Recipients

The Honor Society of Phi Kappa Phi, the nation's oldest and most selective all-discipline collegiate honor society, today announced the recipients of its Graduate Research Grants. The grants of up to $1,500 are designed to support graduate students who...

March, 09 2022 - Verified by The Honor Society of Phi Kappa Phi
Mic Fenech Inducted into The Honor Society of Phi Kappa Phi

Mic Fenech of Austin, Texas, was recently initiated into The Honor Society of Phi Kappa Phi, the nation's oldest and most selective all-discipline collegiate honor society. Fenech was initiated at...

April, 06 2021 - Verified by The Honor Society of Phi Kappa Phi
Piloting a full-year, optics-based high school course on quantum computing
Quantum computing was once regarded as a mere theoretical possibility, but recent advances in engineering and materials science have brought practical quantum computers closer to reality. Currently, representatives from industry, academia, and governments across the world are working to build the educational structures needed to produce the quantum workforce of the future. Less attention has been paid to growing quantum computing capacity at the high school level. This article details work at The University of Texas at Austin to develop and pilot the first full-year high school quantum computing class. Over the course of two years, researchers and practitioners involved with the project learned several pedagogical and practical lessons that can be helpful for quantum computing course design and implementation at the secondary level. In particular, we find that the use of classical optics provides a clear and accessible avenue for representing quantum states and gate operators and facilitates both learning and the transfer of knowledge to other Science, Technology, and Engineering (STEM) skills. Furthermore, students found that exploring quantum optical phenomena prior to the introduction of mathematical models helped in the understanding and mastery of the material.
December 2021 - Publications
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