将参宿四的变暗事件应用于高中水平的天文学练习

P. Ranadive, S. Shetye, Dhaval Dalvi, A. Sule
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引用次数: 0

摘要

本文以最近发生的一个奇怪的天体物理事件为基础,概述了为高中水平的天文学奥林匹克竞赛设计一道题的过程。参宿四是夜空中最亮的恒星之一,也是超新星的候选者,它于2019年10月开始变暗,并于2020年2月达到创纪录的最低星等。这一非同寻常的事件激起了专业天文学家、业余天文学家以及大众媒体的好奇心。这里提出的问题,试图为学生建立一个定量的事件模型,仅仅基于高中物理。该问题包括三个模型,即恒星脉动模型、系外行星凌日模型和质量损失事件模型。学生们被要求计算一些物理量或参数来推断出最合适的模型。问题设计的整个过程包括所涉及的约束,探索和放弃的替代方法以及最终草案。希望这次讨论能成为问题设计者和问题制定者的指路明灯。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Adapting Betelgeuse’s Dimming Event to A High School Level Astronomy Exercise
This article outlines the process of designing a problem for Astronomy Olympiad at high-school level, based on a recent curious astrophysical event. Betelgeuse, one of the brightest star in the night sky and a supernova candidate, started dimming in October 2019 and reached a record minimum magnitude in February 2020. This extraordinary event piqued curiosity in professional astronomers, amateur astronomers as well as mass media. The problem presented here, tries to build a quantitative model of the event for the students, based on just high school physics. This problem included three models viz., a stellar pulsation model, an exoplanet transit model and a mass loss event model. The students were asked to calculate few physical quantities or parameters to deduce the most suitable model. The entire process of problem design including constraints involved, alternative approaches explored and discarded and the final draft is laid out. It is hoped that this discussion will serve as a guiding light to fellow problem designers and question setters.
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