Does it occur or not? – A structured approach to support students in determining the spontaneity of chemical reactions

IF 2.2 Q2 EDUCATION, SCIENTIFIC DISCIPLINES
Elisabeth Hofer, Rosina Steininger
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引用次数: 0

Abstract

Abstract Thermodynamics is a central topic of chemistry as it holds a crucial role in understanding chemical processes. Due to its complexity, level of abstraction and amount of “mathematics”, chemical thermodynamics is one of the most challenging subjects resulting in a huge number of inappropriate conceptions. To determine whether a chemical reaction is spontaneous in a particular direction, students need to apply a huge amount of chemical knowledge when completing a complex, multi-step thinking process. In a Design-Based Research project, we developed “unmathematical” instructional material that aims at supporting students in accomplishing this demanding task. By providing a step-by-step instruction and incorporating scaffolding measures, students are guided through four successive tasks. The material was implemented in more than ten upper secondary chemistry classes and four teacher education courses and was proved to be proper for independent work, supporting students in connecting thermodynamics to basic chemical knowledge. Working on the material enables students to overcome barriers in the field of chemical thermodynamics and to successfully complete tasks in the area of thermodynamics and physical chemistry. Teachers can easily adapt the material to specific contents, levels, and teaching requirements. Further, the supportive material can be applied to offer differentiated and individualised learning paths.
它是否会发生?-一种结构化的方法来帮助学生确定化学反应的自发性
热力学是化学的中心课题,因为它在理解化学过程中起着至关重要的作用。化学热力学由于其复杂性、抽象程度和大量的“数学”,是最具挑战性的学科之一,产生了大量不恰当的概念。为了确定某一特定方向的化学反应是否自发,学生在完成一个复杂的、多步骤的思考过程时,需要应用大量的化学知识。在一个基于设计的研究项目中,我们开发了“非数学”的教学材料,旨在帮助学生完成这一艰巨的任务。通过提供一步一步的指导,并结合脚手架措施,引导学生通过四个连续的任务。该教材已在十余堂高中化学课和四门教师教育课程中实施,并被证明适合独立作业,支持学生将热力学与基础化学知识联系起来。研究材料使学生能够克服化学热力学领域的障碍,并成功地完成热力学和物理化学领域的任务。教师可以很容易地使材料适应特定的内容、水平和教学要求。此外,支持性材料可用于提供差异化和个性化的学习路径。
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来源期刊
CiteScore
3.10
自引率
0.00%
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