Haptic Intelligence

Using paired teaching for earthquake education in schools

2021

Article

OS Lab


In this study, we have created 10 geoscience video lessons that follow the paired-teaching pedagogical approach. This method is used to supplement the standard school curriculum with video lessons, instructed by geoscientists from around the world, coupled with activities carried out under the guidance of classroom teachers. The video lessons introduce students to the scientific concepts behind earthquakes (e.g. the Earth’s interior, plate tectonics, faulting, and seismic energy), earthquake hazards, and mitigation measures (e.g. liquefaction, structural, and non- structural earthquake hazards). These concepts are taught through hands-on learning, where students use everyday materials to build models to visualize basic Earth processes that produce earthquakes and explore the effects of different hazards. To evaluate the effectiveness of these virtual lessons, we tested our videos in school classrooms in Dushanbe (Tajikistan) and London (United Kingdom). Before and after the video implementations, students completed questionnaires that probed their knowledge on topics covered by each video, including the Earth’s interior, tectonic plate boundaries, and non-structural hazards. Our assessment results indicate that, while the paired- teaching video lessons appear to enhance student knowledge and understanding of some concepts (e.g. Earth’s interior, earthquake location forecasting, and non-structural hazards), they bring little change to their views on the causes of earthquakes and their relation to plate boundaries. In general, the difference between UK and Tajik students’ level of knowledge prior to and after video testing is more significant than the difference between pre- and post-knowledge for each group. This could be due to several factors affecting curriculum testing (e.g. level of teachers’ participation and classroom culture) and students’ learning of content (e.g. pre-existing hazards knowledge and experience). To maximize the impact of school-based risk reduction education, curriculum developers must move beyond innovative content and pedagogical approaches, take classroom culture into consideration, and instil skills needed for participatory learning and discovery.

Author(s): Solmaz Mohadjer and Sebastian Mutz and Matthew Kemp and Sophie Gill and Anatoly Ischuk and Todd Ehlers
Journal: Geoscience Communication
Volume: 4
Number (issue): 2
Pages: 281-295
Year: 2021

Department(s): Optics and Sensing Laboratory
Bibtex Type: Article (article)
Paper Type: Journal

DOI: 10.5194/gc-4-281-2021
Language: English
State: Published
URL: https://gc.copernicus.org/articles/4/281/2021/gc-4-281-2021.html

BibTex

@article{Mohadjer21-GC-earthquake,
  title = {Using paired teaching for earthquake education in schools},
  author = {Mohadjer, Solmaz and Mutz, Sebastian and Kemp, Matthew and Gill, Sophie and Ischuk, Anatoly and Ehlers, Todd},
  journal = {Geoscience Communication},
  volume = {4},
  number = {2},
  pages = {281-295},
  year = {2021},
  doi = {10.5194/gc-4-281-2021},
  url = {https://gc.copernicus.org/articles/4/281/2021/gc-4-281-2021.html}
}