教育

IF 12.7 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY ACS Central Science Pub Date : 2024-11-07 DOI:10.1137/24n976018
Hélène Frankowska
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Its modeling can help in understanding complex natural phenomena such as dune migration, erosion, landslides, and avalanches, and can contribute to the development of environmental protection programs. Such models are also important in various applications in agriculture, construction, energy production, as well as in the chemical, pharmaceutical, food, and metallurgical industries. Even if a sufficiently consolidated general model for the dynamics of granular materials is not available yet, significant progress has been made recently with the introduction of new theoretical models adapted to more specific situations. In this article, after a general description and some historical comments, the authors limit themselves to considering the problem of the growth of a pile of sand on a table under the action of a vertical source of small intensity, neglecting the effects of wind, which has an important role in dune formation. Still, even for such an apparently simpler case, many interesting phenomena do arise and are described in an easily accessible way. Accompanying pictures of real-life experiences make the reading truly enjoyable, and numerical illustrations bring even better intuition on the complexity of phenomena. The authors also indicate literature for further learning. This article is well organized, neatly written, and presents the subject highlighting some of the major aspects. This review of existing models can become a starting point for research projects in a Master's program of applied mathematics and partial differential equations. It could also be used by advanced mathematics students to learn differential models of granular material in an affordable way. The second paper, “Developing Workforce with Mathematical Modeling Skills,” is presented by Ariel Cintrón-Arias, Ryan Andrew Nivens, Anant Godbole and Calvin B. Purvis. Undergraduate mathematics degrees constitute a very small portion of all awarded degrees in the U.S., and this portion is stagnating, while the job growth between 2016 and 2026 for Statisticians and Mathematicians is expected to be substantial. So the need for growth in mathematical training becomes imperative. The authors discuss the nationwide production of STEM professionals and argue that mathematical modeling curricula could attract more students to mathematical majors and minors. They also provide some highlights of three public data repositories that can be used along with instruction in mathematical modeling. Then a generic minor in mathematical modeling related to skills in high demand is proposed and some selected educational resources are provided. Finally the outcomes of a National Science Foundation grant awarded to the authors' institution designed to assist and encourage students in mathematical modeling are discussed. 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引用次数: 0

摘要

SIAM 评论》,第 66 卷第 4 期,第 749-749 页,2024 年 11 月。 本期教育版块刊登了两篇论文。第一篇论文题为 "Sandpiles and Dunes:Piermarco Cannarsa 和 Stefano Finzi Vita 撰写的 "沙堆和沙丘:粒状物质的数学模型 "回顾了沙堆和沙丘形成的数学模型。在自然界和日常生活中,各种材料都是颗粒的集合体,例如沙子、砾石、新雪、大米、糖等。在更大的范围内,颗粒物质会呈现出新的、更复杂的现象,而这些现象至今仍未被完全理解。它与固态、液态或气态物质截然不同,根据系统能量的不同,可以表现出与其中一种物质相似的特征。其模型有助于理解复杂的自然现象,如沙丘迁移、侵蚀、滑坡和雪崩,并有助于制定环境保护计划。此类模型在农业、建筑、能源生产以及化工、制药、食品和冶金行业的各种应用中也非常重要。尽管目前还没有足够完善的颗粒材料动力学通用模型,但随着适应更多具体情况的新理论模型的推出,最近已经取得了重大进展。在这篇文章中,作者在进行了一般描述和一些历史评论之后,仅限于考虑在一个强度较小的垂直源作用下,台面上沙堆的生长问题,而忽略了风的影响,因为风在沙丘形成中起着重要作用。不过,即使是这样一个看似简单的案例,也确实出现了许多有趣的现象,并以通俗易懂的方式进行了描述。书中还附有现实生活中的图片,让读者在阅读过程中真正感受到乐趣,而数字插图则让读者对现象的复杂性有了更直观的认识。作者还指出了可供进一步学习的文献。这篇文章条理清晰,文字工整,对主题的介绍突出了一些主要方面。这篇对现有模型的综述可以成为应用数学和偏微分方程硕士课程研究项目的起点。高等数学学生也可以利用这篇论文,以一种负担得起的方式学习颗粒材料的微分模型。第二篇论文题为 "培养具备数学建模技能的人才",由 Ariel Cintrón-Arias、Ryan Andrew Nivens、Anant Godbole 和 Calvin B. Purvis 撰写。在美国,本科数学学位只占所有授予学位的很小一部分,而且这一部分正在停滞不前,而统计学家和数学家在 2016 年至 2026 年期间的就业增长预计将非常可观。因此,增加数学培训势在必行。作者讨论了全国范围内 STEM 专业人才的培养情况,并认为数学建模课程可以吸引更多学生选修数学专业和辅修专业。他们还提供了三个公共数据资源库的一些亮点,可与数学建模教学一起使用。然后,他们提出了与高需求技能相关的数学建模通用辅修课程,并提供了一些精选的教育资源。最后,还讨论了作者所在机构获得国家科学基金会资助的成果,该资助旨在帮助和鼓励学生学习数学建模。这篇文章可以作为一种有价值的工具,为将数学建模纳入 STEM 课程争取大学管理者的支持。
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Education
SIAM Review, Volume 66, Issue 4, Page 749-749, November 2024.
In this issue the Education section presents two contributions. The first paper, “Sandpiles and Dunes: Mathematical Models for Granular Matter,” by Piermarco Cannarsa and Stefano Finzi Vita, presents a review of mathematical models for formation of sand piles and dunes. In nature and everyday life various materials appear as conglomerates of particles, like, for instance, sand, gravel, fresh snow, rice, sugar, etc. On larger scales, granular material exhibits new and more complex phenomena which are still not fully understood. It is very different from that of a solid, liquid, or gas in the sense that it can show characteristics similar to one or the other depending on the energy of the system. Its modeling can help in understanding complex natural phenomena such as dune migration, erosion, landslides, and avalanches, and can contribute to the development of environmental protection programs. Such models are also important in various applications in agriculture, construction, energy production, as well as in the chemical, pharmaceutical, food, and metallurgical industries. Even if a sufficiently consolidated general model for the dynamics of granular materials is not available yet, significant progress has been made recently with the introduction of new theoretical models adapted to more specific situations. In this article, after a general description and some historical comments, the authors limit themselves to considering the problem of the growth of a pile of sand on a table under the action of a vertical source of small intensity, neglecting the effects of wind, which has an important role in dune formation. Still, even for such an apparently simpler case, many interesting phenomena do arise and are described in an easily accessible way. Accompanying pictures of real-life experiences make the reading truly enjoyable, and numerical illustrations bring even better intuition on the complexity of phenomena. The authors also indicate literature for further learning. This article is well organized, neatly written, and presents the subject highlighting some of the major aspects. This review of existing models can become a starting point for research projects in a Master's program of applied mathematics and partial differential equations. It could also be used by advanced mathematics students to learn differential models of granular material in an affordable way. The second paper, “Developing Workforce with Mathematical Modeling Skills,” is presented by Ariel Cintrón-Arias, Ryan Andrew Nivens, Anant Godbole and Calvin B. Purvis. Undergraduate mathematics degrees constitute a very small portion of all awarded degrees in the U.S., and this portion is stagnating, while the job growth between 2016 and 2026 for Statisticians and Mathematicians is expected to be substantial. So the need for growth in mathematical training becomes imperative. The authors discuss the nationwide production of STEM professionals and argue that mathematical modeling curricula could attract more students to mathematical majors and minors. They also provide some highlights of three public data repositories that can be used along with instruction in mathematical modeling. Then a generic minor in mathematical modeling related to skills in high demand is proposed and some selected educational resources are provided. Finally the outcomes of a National Science Foundation grant awarded to the authors' institution designed to assist and encourage students in mathematical modeling are discussed. This article may serve as a valuable tool to obtain support from university administrators for integrating mathematical modeling into STEM curricula.
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来源期刊
ACS Central Science
ACS Central Science Chemical Engineering-General Chemical Engineering
CiteScore
25.50
自引率
0.50%
发文量
194
审稿时长
10 weeks
期刊介绍: ACS Central Science publishes significant primary reports on research in chemistry and allied fields where chemical approaches are pivotal. As the first fully open-access journal by the American Chemical Society, it covers compelling and important contributions to the broad chemistry and scientific community. "Central science," a term popularized nearly 40 years ago, emphasizes chemistry's central role in connecting physical and life sciences, and fundamental sciences with applied disciplines like medicine and engineering. The journal focuses on exceptional quality articles, addressing advances in fundamental chemistry and interdisciplinary research.
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