A Linear Algebra Story: How We Reconstructed a Matrix from its Eigenvalues

Q4 Social Sciences

College Mathematics Journal Pub Date : 2023-10-24 DOI:10.1080/07468342.2023.2266319

Alexander Holley, Anastasiia Minenkova

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引用次数: 0

Abstract

SummaryBy telling this story, we discuss how to blend research problems into the classrooms to enhance the curriculum starting already with the linear algebra course. In particular, we present an elementary approach to the reconstruction of persymmetric Jacobi matrices from their eigenvalues. This work is done in collaboration with and for undergraduate students taking linear algebra. We wrote it with a thought in mind to fill the gaps and to show the depth of results still keeping it within the boundaries of the undergraduate underclassman level. So if a student reads it and the web supplements, it will be completely understandable and by comparing to the original paper [Citation2] the student would realize how to break down the results and proofs to fully comprehend them. As for educators, we hope this would show an example of how to present an establish knowledge and modern theories by making a problem feasible for the broader undergraduate audience. We also briefly discuss the motivation of studying the problem in the prism of modern theories. Namely, we link this algorithm to the perfect quantum transfer problem. AcknowledgmentThe second author wishes to thank their linear algebra students who kept working on their projects in the midst of the COVID-19 pandemic and survived the switch to the distance learning. They were an incredible source of inspiration.Additional informationNotes on contributorsAlexander HolleyAlexander Holley (alexander.holley@uconn.edu) is pursuing a B.S. in Mechanical Engineering at the University of Connecticut. He plans on working in the aerospace field after graduation, or returning to school for a M. Sc. in a related engineering field. His interests include being in nature, cooking, and watching or playing sports.Anastasiia MinenkovaAnastasiia Minenkova (aminenkova@mtholyoke.edu) is a visiting lecturer at Mount Holyoke College. She received her M.Sc. in Mathematics from the University of Mississippi and her doctorate from the University of Connecticut. Her research interests are in numerical linear algebra. She is very passionate about teaching. Anastasiia’s interests outside of academia include cross-stitching and culinary tourism.

查看原文本刊更多论文

一个线性代数的故事:我们如何从它的特征值重构一个矩阵

通过讲述这个故事，我们讨论了如何将研究问题融入课堂，以加强已经从线性代数课程开始的课程。特别地，我们提出了一种从特征值重构超对称雅可比矩阵的初等方法。这项工作是与学习线性代数的本科生合作完成的。我们写这篇文章的想法是为了填补空白，并展示结果的深度，同时保持它在本科低年级学生水平的范围内。因此，如果学生阅读它和网络补充，它将是完全可以理解的，并通过与原始论文[引文2]进行比较，学生将意识到如何分解结果和证明，以充分理解它们。至于教育工作者，我们希望这将展示一个例子，如何通过使一个问题对更广泛的本科生观众可行来呈现一个既定的知识和现代理论。我们还简要讨论了在现代理论的棱镜中研究这个问题的动机。也就是说，我们将这个算法与完美量子转移问题联系起来。第二作者要感谢他们的线性代数学生，他们在COVID-19大流行期间继续从事他们的项目，并在转向远程学习中幸存下来。他们是不可思议的灵感来源。亚历山大·霍利亚历山大·霍利(alexander.holley@uconn.edu)正在康涅狄格大学攻读机械工程学士学位。他计划毕业后在航空航天领域工作，或者回到学校攻读相关工程领域的硕士学位。他的兴趣包括亲近大自然、烹饪、观看或参加体育运动。Anastasiia Minenkova (aminenkova@mtholyoke.edu)是Mount Holyoke学院的客座讲师。她在密西西比大学获得数学硕士学位，在康涅狄格大学获得博士学位。她的研究兴趣是数值线性代数。她对教学充满热情。Anastasiia在学术界之外的兴趣包括十字绣和烹饪旅游。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

College Mathematics Journal Social Sciences-Education

CiteScore

0.20

自引率

0.00%

发文量