模拟分子水平实验在扩散和渗透教学中效果如何？

How effective are simulated molecular-level experiments for teaching diffusion and osmosis?

作者信息

Meir Eli, Perry Judith, Stal Derek, Maruca Susan, Klopfer Eric

机构信息

Massachusetts Institute of Technology, Cambridge, MA 02139, USA.

出版信息

Cell Biol Educ. 2005 Fall;4(3):235-48. doi: 10.1187/cbe.04-09-0049.

DOI:10.1187/cbe.04-09-0049

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1200778/

Abstract

Diffusion and osmosis are central concepts in biology, both at the cellular and organ levels. They are presented several times throughout most introductory biology textbooks (e.g., Freeman, 2002), yet both processes are often difficult for students to understand (Odom, 1995; Zuckerman, 1994; Sanger et al., 2001; and results herein). Students have deep-rooted misconceptions about how diffusion and osmosis work, especially at the molecular level. We hypothesized that this might be in part due to the inability to see and explore these processes at the molecular level. In order to investigate this, we developed new software, OsmoBeaker, which allows students to perform inquiry-based experiments at the molecular level. Here we show that these simulated laboratories do indeed teach diffusion and osmosis and help overcome some, but not all, student misconceptions.

摘要

扩散和渗透是生物学中细胞和器官层面的核心概念。在大多数生物学入门教材中（如弗里曼，2002年），它们会被多次提及，然而这两个过程对学生来说往往很难理解（奥多姆，1995年；朱克曼，1994年；桑格等人，2001年；以及本文的研究结果）。学生们对扩散和渗透的工作原理存在根深蒂固的误解，尤其是在分子层面。我们推测，这可能部分是由于无法在分子层面观察和探究这些过程。为了对此进行研究，我们开发了新软件“渗透烧杯”，它能让学生在分子层面进行基于探究的实验。在此我们表明，这些模拟实验室确实能教授扩散和渗透知识，并有助于克服部分但并非全部的学生误解。

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