Playing with Quantum Toys: Julian Schwinger’s Measurement Algebra and the Material Culture of Quantum Mechanics Pedagogy at Harvard in the 1960s

IF 0.1 3区 哲学 Q4 HISTORY & PHILOSOPHY OF SCIENCE
Jean-François Gauvin
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引用次数: 1

Abstract

In the early 1960s, a PhD student in physics, Costas Papaliolios, designed a simple—and playful—system of Polaroid polarizer filters with a specific goal in mind: explaining the core principles behind Julian Schwinger’s quantum mechanical measurement algebra, developed at Harvard in the late 1940s and based on the Stern-Gerlach experiment confirming the quantization of electron spin. Papaliolios dubbed his invention “quantum toys.” This article looks at the origins and function of this amusing pedagogical device, which landed half a century later in the Collection of Historical Scientific Instruments at Harvard University. Rendering the abstract tangible was one of Papaliolios’s demonstration tactics in reforming basic teaching of quantum mechanics. This article contends that Papaliolios’s motivation in creating the quantum toys came from a renowned endeavor aimed, inter alia, at reforming high-school physics training in the United States: Harvard Project Physics. The pedagogical study of these quantum toys, finally, compels us to revisit the central role playful discovery performs in pedagogy, at all levels of training and in all fields of knowledge.

Abstract Image

玩量子玩具:朱利安·施温格的测量代数和20世纪60年代哈佛大学量子力学教学的物质文化
20世纪60年代初,物理学博士生科斯塔斯·帕帕利奥利奥斯(Costas Papaliolios)设计了一个简单而有趣的宝丽来偏光镜滤光片系统,他有一个特定的目标:解释朱利安·施翁格(Julian Schwinger)的量子力学测量代数背后的核心原理,该代数于20世纪40年代末在哈佛大学开发,基于证实电子自旋量子化的斯特恩-格拉赫(Stern-Gerlach)实验。帕帕里奥利奥斯将他的发明称为“量子玩具”。这篇文章着眼于这个有趣的教学装置的起源和功能,它在半个世纪后出现在哈佛大学的历史科学仪器集中。将抽象具象化是帕帕里奥里奥斯改革量子力学基础教学的论证策略之一。本文认为,Papaliolios创造量子玩具的动机来自一项著名的努力,其目的是改革美国的高中物理训练:哈佛计划物理。最后,对这些量子玩具的教学研究迫使我们重新审视好玩的发现在教育学、各级培训和所有知识领域中所起的核心作用。
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
Physics in Perspective
Physics in Perspective 物理-科学史与科学哲学
CiteScore
0.60
自引率
0.00%
发文量
10
审稿时长
>12 weeks
期刊介绍: Physics in Perspective seeks to bridge the gulf between physicists and non-physicists through historical and philosophical studies that typically display the unpredictable as well as the cross-disciplinary interplay of observation, experiment, and theory that has occurred over extended periods of time in academic, governmental, and industrial settings and in allied disciplines such as astrophysics, chemical physics, and geophysics. The journal also publishes first-person accounts by physicists of significant contributions they have made, biographical articles, book reviews, and guided tours of historical sites in cities throughout the world. It strives to make all articles understandable to a broad spectrum of readers – scientists, teachers, students, and the public at large. Bibliographic Data Phys. Perspect. 1 volume per year, 4 issues per volume approx. 500 pages per volume Format: 15.5 x 23.5cm ISSN 1422-6944 (print) ISSN 1422-6960 (electronic)
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