数学教育
心理学
科学学习
科学教育
控制(管理)
叙述的
定性性质
教育技术
学业成绩
可视化
公立大学
定性研究
增强现实
显著性差异
教育学
半结构化面试
Boosting(机器学习)
多元方法论
治疗组和对照组
技术集成
协方差分析
高等教育
教学方法
研究设计
专业发展
教学设计
计算机科学
成就测验
学生成绩
结构方程建模
自我效能感
定性分析
学习环境
作者
Faruk Arıcı,Rabia Meryem Yılmaz
摘要
ABSTRACT Background Inquiry‐based learning (IbL) has significantly contributed to science education, and this impact can be enhanced with technology. Augmented Reality (AR) offers 3D visualisation and interactive experiences, whereas Video‐based Learning (VbL) provides narratives with visual and audio support. Both methods aid students in exploring, understanding and boosting their motivation to learn science (MtLS). Objectives This study examines the effect of AR and VbL within an IbL environment on students' MtLS and academic achievement. Methods A mixed‐method research design was used, with a quasi‐experimental approach for the quantitative aspect and a multiple case study for the qualitative part. Participants included two experimental groups and a control group. Experiment 1 (25 participants) received AR and IbL, Experiment 2 (26 participants) received VbL and IbL and the control group (25 participants) received only IbL instruction. Data were collected using academic achievement tests, MtLS scales and semi‐structured interviews. Quantitative data were analysed via ANCOVA using SPSS, whereas qualitative data underwent content analysis. Results and Conclusions Results indicated that AR technology in the IbL environment was more effective than VbL in enhancing academic achievement and MtLS. The VbL group also performed better than the IbL‐only group. With regard to the MtLS subfactors, no significant differences were observed between the groups in terms of motivation for participation. However, Experiment‐1 demonstrated significant improvement in motivation for conducting research and motivation for collaboration, compared to Experiment‐2 and the control group. Experiment 2 showed significant results compared to the control group. Experiment‐1 demonstrated significant improvement in motivation for performance and motivation for communication compared to the control group. Although Experiment‐1 yielded higher results than Experiment‐2, this difference was not significant. Experiment 2 and the control group demonstrate notable parallels. The findings of this study indicate that AR effectively supports academic achievement and MtLS in an IbL environment. Consequently, the utilisation of AR is advocated for middle school students engaged in the study of vertebrates.
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