Jeffrey T. Morgan scite author profile

Jeffrey T. Morgan

5Publications

111Citation Statements Received

18Citation Statements Given

How they've been cited

105

How they cite others

Affiliations

University of Northern Iowa, University of Maine

Publications

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Addressing student models of energy loss in quantum tunnelling

2005

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We report on a multi-year, multi-institution study to investigate student reasoning about energy in the context of quantum tunnelling. We use ungraded surveys, graded examination questions, individual clinical interviews, and multiple-choice exams to build a picture of the types of responses that students typically give. We find that two descriptions of tunnelling through a square barrier are particularly common. Students often state that tunnelling particles lose energy while tunnelling. When sketching wave functions, students also show a shift in the axis of oscillation, as if the height of the axis of oscillation indicated the energy of the particle.We find inconsistencies between students' conceptual, mathematical, and graphical models of quantum tunnelling. As part of a curriculum in quantum physics, we have developed instructional materials designed to help students develop a more robust and less inconsistent picture of tunnelling, and present data suggesting that we have succeeded in doing so.

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Student Understanding of Tunneling in Quantum Mechanics: Examining Interview and Survey Results for Clues to Student Reasoning

Morgan¹

2004

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Laboratory-tutorial activities for teaching probability

Wittmann

Morgan

Feeley

2006

Phys. Rev. ST Phys. Educ. Res.

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We report on the development of students' ideas of probability and probability density in a University of Maine laboratory-based general education physics course called Intuitive Quantum Physics. Students in the course are generally math phobic with unfavorable expectations about the nature of physics and their ability to do it. We describe a set of activities used to teach concepts of probability and probability density. Rudimentary knowledge of mechanics is needed for one activity, but otherwise the material requires no additional preparation. Extensions of the activities include relating probability density to potential energy graphs for certain "touchstone" examples. Students have difficulties learning the target concepts, such as comparing the ratio of time in a region to total time in all regions. Instead, they often focus on edge effects, pattern match to previously studied situations, reason about necessary but incomplete macroscopic elements of the system, use the gambler's fallacy, and use expectations about ensemble results rather than expectation values to predict future events. We map the development of their thinking to provide examples of problems rather than evidence of a curriculum's success.

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Examining the Evolution of Student Ideas About Quantum Tunneling

Morgan¹,

Wittmann²

2006

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We have studied whether repeated exposure to complicated physics concepts, such as quantum tunneling, fosters increased understanding. For three students, we have multiple interview, survey, and examination data over three years. We present data from a single student whose understanding of energy conservation in tunneling improved with repeated instruction, but whose ability to correctly sketch wave function solutions and discuss their meaning showed little progress.

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Foregrounding epistemology and everyday intuitions in a quantum physics course for nonscience majors

Wittmann

Morgan

2020

Phys. Rev. Phys. Educ. Res.

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Jeffrey T. Morgan

Addressing student models of energy loss in quantum tunnelling

Student Understanding of Tunneling in Quantum Mechanics: Examining Interview and Survey Results for Clues to Student Reasoning

Laboratory-tutorial activities for teaching probability

Examining the Evolution of Student Ideas About Quantum Tunneling

Foregrounding epistemology and everyday intuitions in a quantum physics course for nonscience majors

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