Journal article
Hands-On Experimental Activities on Constructing a 3D Physical Molecular Structure Model Based on Crystal Database Data: Taking the Artemisinin Molecule as an Example
Journal of Chemical Education, Vol.101(2), pp.364-373
2024
Abstract
Understanding the general ideas and methods of detecting molecular structures is essential in high school chemistry. However, there is a need for more practical activities in teaching. A hands-on activity was designed in this study, which uses flexible foam balls and long sticks such as knitting needles to imitate how scientists construct the 3D molecular structure model. The activities mainly included retrieving the crystallographic data from the crystal database; converting the microscopic molecular coordinates to macroscopic coordinates; building the spatial position model according to coordinates; and inferring atomic bonds according to structural information and bond length. The process allowed students to get a magnified, complete 3D physical molecular structure model. The activity aimed to develop students’ understanding of the molecular stereo structure and the process of model construction, which can also make students realize the unknown nature of research objects and the construction nature of scientific understanding.
Details
- Title
- Hands-On Experimental Activities on Constructing a 3D Physical Molecular Structure Model Based on Crystal Database Data: Taking the Artemisinin Molecule as an Example
- Authors/Creators
- Yunjie DangJianye Wei (Author) - Murdoch University, School of Mathematics, Statistics, Chemistry and PhysicsRui Wei Prof.
- Publication Details
- Journal of Chemical Education, Vol.101(2), pp.364-373
- Publisher
- ACS Publications
- Number of pages
- 10
- Identifiers
- 991005879555107891
- Copyright
- © 2024 American Chemical Society and Division of Chemical Education, Inc.
- Murdoch Affiliation
- Murdoch University
- Resource Type
- Journal article
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