Development and Analysis of Virtual Laboratory as an Assistive Tool for Teaching Grade 8 Physical Science Classes-Reference-Cited by-同舟云学术

Development and Analysis of Virtual Laboratory as an Assistive Tool for Teaching Grade 8 Physical Science Classes

Published:2021 Issue: Volume: Page:326-349
ISSN:2327-1981
Container-title:Advances in Data Mining and Database Management
language:
Short-container-title:

Author:

Ntinda Maria Ndapewa¹,Haiduwa Titus¹,Kamati Willbard¹

Affiliation:

1. University of Namibia, Namibia

Abstract

This chapter discusses the development of a virtual laboratory (VL) named “EduPhysics,” an assistive software tailored around the Namibian Physical Science textbook for Grade 8 learners, and examines the viability of implementing VL in education. It further presented reviews on the role of computer simulations in science education and teachers' perspective on the use of EduPhysics in physical science classrooms. The chapter adopted a mixed method with an experimental research design and used questionnaires and interviews as data collection tools in high school physical science classes. The analysis found that there are limited resources in most physical science laboratories. Computer laboratories, however, are well equipped and have computing capacities to support the implementation of VL. It was concluded that virtual laboratories could be an alternative approach to hands-on practical work that is currently undertaken in resource-constrained physical science labs. For future work, augmented reality and logs will be incorporated within EduPhysics.

Publisher

IGI Global

Reference47 articles.

1. Bak, L. K., Dandanell, G., & Bruun, C. V. (n.d.). The Implementation of Labster Virtual Labs at Copenhagen University. A Case Study. Retrieved November 23, 2018, from https://www.elearningmedia.es/sites/default/files/pdfs/The_implementation_of_Labster_at_Copenhagen_University_A_case_study_final.pdf

2. Bottentuit, J. B., & Coutinho, C. P. (2007). Virtual Laboratories and M-Learning: learning with mobile devices. Retrieved December 02, 2018, from https://core.ac.uk/download/pdf/55607753.pdf

3. Budhu, M. (2002). Virtual laboratories for engineering education. International Conference on Engineering Education, 12-18. Retrieved December 30, 2018, from https://pdfs.semanticscholar.org/660e/6763061bb695d5560dd684720d0f2bb29ff7.pdf

4. Carnegie Mellon University. (2020). ChemCollective: Online Resources for Teaching and Learning Chemistry. Retrieved November 29, 2020, from http://chemcollective.org/

5. Cawthera, A. (n.d.). Computers in secondary schools in developing countries, costs, and other issues. The Department For International Development (DFID). World Links For Development (WorLD): a part of the World Bank Institute. The Human Development Network of the World Bank. Retrieved February 07, 2019, from https://ageconsearch.umn.edu/bitstream/12831/1/er010043.pdf

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