An Analysis of Teachers’ Concept Confusion Concerning Electric and Magnetic Fields

Hekkenberg, Ans; Lemmer, Miriam; Dekkers, Peter

doi:10.1080/10288457.2015.1004833

Cited by 23 publications

(15 citation statements)

References 18 publications

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“…This is a major misconception that is documented in the literature (e.g. Hekkenberg et al, 2015). She devised a 'teaching strategy' that addressed the misconception, suggesting asking: 'why is it that nothing happens when you put the ruler underneath [a piece of paper with iron filings] instead of magnets?'…”

Section: Resultsmentioning

confidence: 99%

Comparing Pedagogical Content Knowledge Across Fundamental Concepts of Electrostatics: A Case of Three Pre-service Teachers

Mazibe

Gaigher

Coetzee

2020

African Journal of Research in Mathematics, Science and Technol

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It has recently been suggested that pedagogical content knowledge (PCK) has a concept-specific nature, beyond the topic-specific level of PCK. This paper reports a case study of three pre-service teachers' reported PCK about three fundamental concepts within the topic of electrostatics, namely electrostatic force, electric field and electric field strength. The aim of the study was to compare the quality of the PCK of each of the individual participants across these fundamental concepts. Data was collected using a content representation tool and a lesson planning form prescribed by the participants' teacher training institution. A topic-specific PCK model was adopted as the framework for this study. The model asserts that the content of a particular topic is transformed for instruction through five components, namely learners' prior knowledge, curricular saliency, what is difficult to teach, representations including analogies and conceptual teaching strategies. Guided by the model, we designed a rubric to assess the concept-specific PCK of the participants on a four-point scale. The results of the study indicated that the PCK of the participants varied across the fundamental concepts of electrostatics, with each participant reporting better PCK for a different concept. The results of the study imply that describing PCK at concept level is appropriate and recommend that PCK should be strengthened at concept level during teacher training to ensure that it develops across all of the concepts within a topic.

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Section: Resultsmentioning

confidence: 99%

Comparing Pedagogical Content Knowledge Across Fundamental Concepts of Electrostatics: A Case of Three Pre-service Teachers

Mazibe

Gaigher

Coetzee

2020

African Journal of Research in Mathematics, Science and Technol

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“…In item 12, it was stated that all metals were attracted by the magnets. The research showed that teacher candidates (Ince & Yilmaz, 2012) and teachers (Burgoon et al, 2011;Hekkenberg, Lemmer, & Dekkers, 2015) also believed that all metals were attracted by the magnets as well as the students (Lemmer et al, 2018;Yuksel, 2011). The present study indicated about half of the elementary, middle and high school students agreed on this misconception in addition to nearly one quarter of the university students.…”

Section: Discussionmentioning

confidence: 99%

A Cross sectional survey about students’ agreement rates on nonscientific ıdeas concerning the concept of magnet

Ürek

Çoramık²

2021

tused

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The present study aims to find out the agreement rates of students on non-scientific ideas concerning the concept of magnet with a cross sectional survey. A total of 436 students studying in the final years of elementary (n=113), middle (n=110), high school (n=105) and university (n=108) participated in the study. Data were collected with the help of a concept test. Quantitative methods were utilized in data analyses. According to the results, students were found to agree with non-scientific ideas in different percentages in each educational level. Most of those non-scientific ideas were prevalent misconceptions in the literature. The least percentages of agreements were detected among university students. Besides, five different mental models were presented to explain the cognitive structures of the students related to their agreements. Several recommendations were provided to consider in future studies at the end of the study.

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“…Hatta 2 öğretmen adayı, çizimini yük kavramı ile açıklamıştır. Elde edilen bu bulgu, alanyazında bulunan, öğrencilerin elektrik alan kavramını yük kavramı ile karıştırdıklarını gösteren çalışma bulgularıyla uyum göstermektedir (Hekkenberg, Lemmer, & Dekkers, 2015;Maloney, O'Kuma, Hieggelke, & Heuvelen, 2001;Planicic, 2006;Saarelainen, Laaksonen, & Hirvonen, 2007). Öğretmen adaylarının biri, elektrik alan çizgileri için kullanılan ok gösterimi için cismin yakınında ikinci bir yüke ihtiyaç duyduğunu belirtmiştir.…”

Section: Tartişma Sonuç Ve öNeri̇lerunclassified

“…Bu araştırmaların sonunda elde edilen ortak bulgular, öğrencilerin elektrik alan kavramını manyetizma kavramlarıyla karıştırdıkları, elektrik alan çizgilerini yanlış yorumladıkları olmuştur (Maloney, O'Kuma, Hieggelke, & Heuvelen, 2001;Planicic, 2006;Saarelainen, Laaksonen, & Hirvonen, 2007). Benzer şekilde, fen bilimleri (fizik ve kimya) öğretmenleri ile yapılan bir çalışmada da öğretmenlerin elektrik alan ve manyetik alan kavramlarını karıştırdıklarını ortaya konulmuştur (Hekkenberg, Lemmer, & Dekkers, 2015). Öğrencilerin elektrik alan konusunu öğrenmelerinde yaşadıkları zorlukların nedeninin araştırıldığı çalışmalarda, öğrencilerin bu soyut kavramı algılamakta zorluk çekmeleri olduğu belirtilmiştir.…”

Section: Introductionunclassified

Examining Knowledge Levels of Prospective Physics Teachers Related to Conductors at Electrostatic Equilibrium and Electric Field Lines Using the Drawing Method

Taşkin

Yavaş

2020

İnönü Üniversitesi Eğitim Fakültesi Dergisi

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The purpose of this study was to investigate knowledge levels of prospective physics teachers related to conductors at electrostatic equilibrium and electric field lines. The descriptive model was preferred in line with the purpose of the study. The study group consisted of 44 prospective physics teachers, 34 females and 10 males, who were educated in the Gazi Physics Education Program. The participants had previously learned the electric field lines in their courses. The research data was collected using a drawing scale consisting of 3 sections prepared by the researchers. The students then were asked to explain their drawings. The answers of the students were applied descriptive analysis. According to the findings obtained from the analysis, the most commonly reflected property of electric field lines was "electric field lines do not intersect", while the least commonly reflected property was "electric field lines are drawn frequently at the pointed ends". Also, the prospective teachers were observed to confuse the electric field lines with the concept of load. In the drawings, it was determined that the objects were drawn at random on the area lines without paying attention to their load. The knowledge of the students was not based on scientific foundations.

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An Analysis of Teachers’ Concept Confusion Concerning Electric and Magnetic Fields

Cited by 23 publications

References 18 publications

Comparing Pedagogical Content Knowledge Across Fundamental Concepts of Electrostatics: A Case of Three Pre-service Teachers

Comparing Pedagogical Content Knowledge Across Fundamental Concepts of Electrostatics: A Case of Three Pre-service Teachers

A Cross sectional survey about students’ agreement rates on nonscientific ıdeas concerning the concept of magnet

Examining Knowledge Levels of Prospective Physics Teachers Related to Conductors at Electrostatic Equilibrium and Electric Field Lines Using the Drawing Method

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