职前科学教师用流程图表达物理问题算法的技能(以土耳其为例)

IF 0.3 Q4 EDUCATION, SCIENTIFIC DISCIPLINES Jurnal Pendidikan Fisika Indonesia-Indonesian Journal of Physics Education Pub Date : 2020-01-01 DOI:10.15294/jpfi.v16i1.21371
H. Kurt, Z. Doğan
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引用次数: 3

摘要

由于物理的性质,问题解决策略在某些情况下应用于许多学科的教学。解决问题是一个个人使用的过程,不仅在物理课上,而且在生活的每个阶段。算法是解决问题或达到特定目的的途径。本研究的目的是了解职前科学教师在解决物理问题的过程中如何表达他们所使用的算法。本研究的研究设计确定为调查设计,是定量研究方法之一。本研究以某州立大学理科教育本科专业普通物理I和普通物理实验I课程的一年级和三年级学生34名职前理科教师为研究对象。给他们三个关于经典力学的问题,然后要求他们用流程图来解决这些问题并将它们的算法形式化。整个研究使用了国际单位制(SI)。通过对3种算法的比较进行评价,保证了该方案的可靠性和有效性,该方案是在3位专家的帮助下创建的。本研究采用描述性调查模型。频率表经常用于数据分析,目的是通过进行深入分析以最佳方式呈现研究。研究发现,职前科学教师在表达算法方面存在问题,有的教师根本不会表达算法。还观察到,职前科学教师在设置问题时难以描述他们创造的解决方案。然而,可以观察到,能够很好地说明其算法的职前科学教师通常是正确解决问题的人。
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Pre-Service Science Teachers’ Skills to Express The Algorithms Used in Solving Physics Problems with Flowcharts (An Example From Turkey)
Due to the nature of physics, problem-solving strategies are applied in some cases to teach many subjects. Problem-solving is a process that individuals use, not only in physics classes but also in every stage of life. An algorithm is a pathway to solving a problem or achieving a specific purpose. The purpose of this study is to identify how pre-service science teachers express the algorithms they utilize in the process of solving physics problems. The research design of the study was determined as survey design which is one of the quantitative research methods. The study was carried out with the number of 34 pre-service science teachers consisting of 1st and 3rd-year university students who took General Physics I and General Physics Lab I courses in the undergraduate program in science education at a state university. They were given three problems regarding classical mechanics and then asked to solve these problems and schematize their algorithms by using flowcharts. The International System of Units (SI) was used throughout the research. An evaluation was made by comparing the 3 algorithms of the solution, whose reliability and validity was ensured, and which was previously created with the help of 3 experts. In the study, descriptive survey model was used. Frequency tables were frequently used in the analysis of the data with the intent to present the study in the best way by doing an in-depth analysis. In the findings of the research, it was observed that pre-service science teachers had problems in expressing their algorithms and some of them could not express these algorithms at all. It was also observed that pre-service science teachers had difficulty describing the solutions they created while setting up the problem. However, it was observed that preservice science teachers who could illustrate their algorithms well were usually the ones who solved the problems correctly.
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自引率
33.30%
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审稿时长
24 weeks
期刊最新文献
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