Design of Science Process Skill-Based Intertextual Learning on Reaction Kinetics Concept

JTK Jurnal Tadris Kimiya Pub Date : 2022-12-31 DOI:10.15575/jtk.v7i2.20883

J. Fatihah, T. Widhiyanti, S. Mulyani, W. Wiji, G. Yuliani

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Abstract

The study aims to design an intertextual learning strategy with Predict-observe-explain (POE) to develop students' science process skills. The research method is Research and Development (R&D) consist of material analysis, developing indicators of science process skills, and developing learning designs. The learning design was validated by five experts. Based on experts’ suggestion, intertextual-based learning activities involving three levels of chemical representation with POE learning steps to build the concept of the effect of the nature of the reactant and catalyst on reaction rates and develop students' science process skills. The strategy consists of five phenomena which are followed by three experiments and two videos as observation tools for the student. The explanation stages are guided by sets of guiding questions that involve multi-representation levels in that explanation. The product of this research is expected to be used as an alternative learning strategy that can be used by teachers to minimize the possibility of misconceptions that occur, increase mastery of concepts, and students' science process skills.

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基于反应动力学概念的科学过程技能互文学习设计

本研究旨在设计预测-观察-解释互文学习策略，以培养学生的科学过程技能。研究方法为研究与开发(R&D)，包括材料分析、制定科学过程技能指标、制定学习设计。该学习设计经过了五位专家的验证。根据专家建议，采用基于互文的学习活动，包括三个层次的化学表征和POE学习步骤，建立反应物和催化剂性质对反应速率影响的概念，培养学生的科学过程技能。该策略包括五个现象，然后是三个实验和两个视频作为学生的观察工具。解释阶段由一系列指导性问题指导，这些问题涉及该解释中的多个表示层次。本研究的成果有望作为一种替代学习策略，供教师使用，以尽量减少误解发生的可能性，增加对概念的掌握，并提高学生的科学处理技能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

JTK Jurnal Tadris Kimiya

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审稿时长

4 weeks