Abstract
This article aims to determine the effect of a virtual chemistry laboratory on university student achievement. The article describes a model of a laboratory course that includes a virtual component. This virtual component is viewed as a tool of student pre-lab autonomous learning. It presents electronic resources designed for a virtual laboratory and outlines the methodology of e-resource application. To find out how virtual chemistry laboratory affects student scientific literacy, research skills and practices, a pedagogical experiment has been conducted. Student achievement was compared in two learning environments: traditional – in-class hands-on – learning (control group) and blended learning – online learning combined with in-person learning (experimental group). The effectiveness of integrating an e-lab in the laboratory study was measured by comparing student lab reports of the two groups. For that purpose, a set of 10 criteria was developed. The experimental and control student groups were also compared in terms of test results and student portfolios. The study showed that the adopted approach blending both virtual and hands-on learning environments has the potential to enhance student research skills and practices in analytical chemistry studies. Published: 4 December 2017 Citation: Research in Learning Technology 2017, 25 : 1968 - http://dx.doi.org/10.25304/rlt.v25.1968
Highlights
Information technology (IT) is being increasingly used and integrated in all areas of secondary and tertiary education
By an e-lab, we understand software-based application designed for modelling real chemical processes, altering parameters and conditions under which a laboratory experiment is run
Our observation showed that those students who experienced chemistry blended learning had more evidence of academic or scientific accomplishment such as research articles and projects, conference presentations, in their portfolios (e.g. projects ‘What kind of water do we drink?’ and ‘Eco-analytical monitoring of snow in Ural cities’ presented at 2014 Eurasia Green Contest; projects ‘Life without oxidative stress’, ‘Secrets of tea chemical composition’, ‘New methods of measuring the quality of mineral waters’ and ‘Analysing vegetables for nitrate ions with the use of analytical software’ presented at the International Contest of Young Researchers’ and Students’ Projects (2013, 2014, 2015 and 2017)
Summary
Information technology (IT) is being increasingly used and integrated in all areas of secondary and tertiary education. One of the ways in which IT has been employed in chemical education is using various technology tools for engagement and assessment, for example, Wiki, Moodle, Web 2.0, Blackboard (Ballesta-Claver et al 2011; Biasutti and El-Deghaidy 2014; Farrell and Krause 2014; Franklin and Smith 2015; Morton and Uhomoibhi 2011), allowing to organise both asynchronous and synchronous modes of interaction. Electronic tools are feasible when designing interactive course textbooks (Nilsson et al 2010), optimising different computational procedures (Young 2011), assessing learning outcome achievement and providing feedback.
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