应用基于问题的学习模型(PBL)克服黑体辐射物质中的误解

Thufail Mujaddid Al-Qoyyim, Aris Doyan
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引用次数: 0

摘要

物理学不能与概念性事物分离。物理学的概念是对存在于宇宙事件中的物理变量的描述或定义。只是,学生对概念的理解经常会出现问题,他们理解的定义与专家传达的定义之间存在差异。这个问题被称为误解。由于学生通过观察日常事件所理解的概念与课堂学习过程中所获得的理论不同,因此会产生误解,其中之一就是黑体辐射物质。一种可以克服误解的学习模型是基于问题的学习模型或基于问题的学习(PBL)。本研究的目的是减少对黑体辐射的误解,并确定PBL在克服黑体辐射误解方面的有效性。本研究采用实验前设计、前测后测组进行实验研究。结果表明,PBL可以减少对黑体辐射物质的误解,并且在减少对N-Gain值为0.55的黑体辐射物质的误解方面非常有效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of Problem-Based Learning Model (PBL) as an Effort to Overcome Misconceptions in Black Body Radiation Material
Physics cannot be separated from things that are conceptual. The concept of physics is a description or definition of the physical variables that exist in events in the universe. It's just that, often there is a problem in students' understanding of concepts where there is a discrepancy between the definitions that are understood and those conveyed by experts. This problem is called a misconception. Misconceptions can occur because the concepts that students understand through observation of everyday events are different from the theories obtained in the learning process in class, one of which is on black body radiation material. One learning model that can overcome misconceptions is a problem-based learning model or Problem Based Learning (PBL). The purpose of this study was to reduce misconceptions about black body radiation and to determine the effectiveness of PBL in overcoming misconceptions about black body radiation. This research is a type of experimental research using a pre-experimental design pre-test post-test group. The results showed that PBL can reduce misconceptions and is quite effective as an effort to reduce misconceptions about black body radiation material marked with an N-Gain value of 0.55.
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