Effects of jigsaw learning strategy integrated with computer simulations on grade 10 students’ achievement and attitude and their correlations in chemistry

IF 3.5 Q1 EDUCATION & EDUCATIONAL RESEARCH Interactive Technology and Smart Education Pub Date : 2024-07-22 DOI:10.1108/itse-01-2024-0002

Shimelis Kebede Kekeba, A. Gure, T. T. Olkaba

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Abstract

Purpose The purpose of this study was to investigate the impact of using a jigsaw learning strategy integrated with computer simulation (JLSICS) on the academic achievement and attitudes of students, along with exploring the relationships between them in the process of learning about acids and bases. Design/methodology/approach The research design used in the study was quasi-experimental, using non-equivalent comparison groups for both pre- and post-tests. A quantitative approach was used to address the research problem, with three groups involved: two experimental and one comparative group. The treatment group, which received the JLSICS intervention, consisted of two intact classes, while the comparison group included one intact class. Data collection involved achievement tests and attitude scale tests on acid and base. Various statistical analyses such as one-way analysis of variance, one-way multivariate analysis of variance, Pearson product-moment correlation, mean and standard deviation were used for data analysis. Findings The study’s results revealed that the incorporation of the JLSICS had a beneficial influence on the academic achievement and attitudes of grade 10 chemistry students towards acid and base topics. The JLSICS approach proved to be more successful than both conventional methods and the standalone use of the jigsaw learning strategy (JLS) in terms of both achievement and attitudes. The research demonstrated a correlation between positive attitudes towards chemistry among high school students and enhanced achievement in the subject. Research limitations/implications The study only focused on one specific aspect of chemistry (acid and base chemistry), which restricts the applicability of the findings to other chemistry topics or subjects. In addition, the study used a quasi-experimental design with a pretest-posttest comparison group, which may introduce variables that could confound the results and restrict causal inferences. Practical implications This study addresses the gap in instructional interventions and provides theoretical and practical insights. It emphasizes the importance of incorporating contemporary instructional methods for policymakers, benefiting the government, society and students. By enhancing student achievement, attitudes and critical thinking skills, this approach empowers students to take charge of their learning, fostering deep understanding and analysis. Furthermore, JLSICS aids in grasping abstract chemistry concepts and has the potential to reduce costs associated with purchasing chemicals for schools. This research opens doors for similar studies in different educational settings, offering valuable insights for educators and policymakers. Originality/value The originality and value of this study are in its exploration of integrating the jigsaw learning strategy with computer simulations as an instructional approach in chemistry education. This research contributes to the existing literature by showing the effectiveness of JLSICS in improving students’ achievements and attitudes towards acid and base topics. It also emphasizes the importance of fostering positive attitudes towards chemistry to enhance students’ overall achievement in the subject.

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结合计算机模拟的拼图学习策略对十年级学生化学学习成绩和态度及其相关性的影响

本研究的目的是调查使用与计算机模拟相结合的拼图学习策略（JLSICS）对学生学习成绩和学习态度的影响，同时探讨在学习酸和碱的过程中它们之间的关系。研究采用定量方法解决研究问题，涉及三个小组：两个实验组和一个对比组。接受 JLSICS 干预的治疗组包括两个完整的班级，而对比组包括一个完整的班级。数据收集包括成绩测试和酸碱态度量表测试。数据分析采用了各种统计分析方法，如单向方差分析、单向多元方差分析、皮尔逊积矩相关、平均值和标准偏差等。事实证明，就成绩和态度而言，拼图式学习策略（JLS）比传统方法和单独使用拼图式学习策略（JLS）更成功。研究的局限性/意义该研究只关注化学的一个特定方面（酸碱化学），这限制了研究结果对其他化学主题或科目的适用性。此外，本研究采用了准实验设计，并设置了一个前测-后测对比组，这可能会引入一些变量，从而混淆结果并限制因果推论。它为决策者强调了采用现代教学方法的重要性，使政府、社会和学生受益。通过提高学生的学习成绩、态度和批判性思维能力，这种方法使学生能够掌握自己的学习方法，促进深刻理解和分析。此外，JLSICS 还有助于掌握抽象的化学概念，并有可能降低学校购买化学品的相关成本。本研究为在不同的教育环境中开展类似研究打开了大门，为教育工作者和政策制定者提供了宝贵的见解。本研究的原创性和价值在于它探索了将拼图学习策略与计算机模拟相结合作为化学教育的一种教学方法。本研究显示了 JLSICS 在提高学生成绩和改善学生对酸和碱主题的态度方面的有效性，从而为现有文献做出了贡献。研究还强调了培养学生对化学的积极态度对提高化学学科整体成绩的重要性。

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来源期刊

Interactive Technology and Smart Education EDUCATION & EDUCATIONAL RESEARCH-

CiteScore

12.00

自引率

2.30%

发文量

期刊介绍： Interactive Technology and Smart Education (ITSE) is a multi-disciplinary, peer-reviewed journal, which provides a distinct forum to specially promote innovation and participative research approaches. The following terms are defined, as used in the context of this journal: -Interactive Technology refers to all forms of digital technology, as described above, emphasizing innovation and human-/user-centred approaches. -Smart Education "SMART" is used as an acronym that refers to interactive technology that offers a more flexible and tailored approach to meet diverse individual requirements by being “Sensitive, Manageable, Adaptable, Responsive and Timely” to educators’ pedagogical strategies and learners’ educational and social needs’. -Articles are invited that explore innovative use of educational technologies that advance interactive technology in general and its applications in education in particular. The journal aims to bridge gaps in the field by promoting design research, action research, and continuous evaluation as an integral part of the development cycle of usable solutions/systems.