Secondary school students’ views of nature of science in quantum physics

Stadermann, Kirsten; Goedhart, Martin

doi:10.1080/09500693.2020.1745926

Cited by 30 publications

(20 citation statements)

References 72 publications

(90 reference statements)

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“…For QP learning with integrated STEM education, it is anticipated to be more challenging because this newly added topic is different from classical physics and has a long unclear interpretation in history (Angelo et al, 2014). Due to the confusing QP ontology, it is challenging for teachers to transfer the knowledge (Ab Rahman & Phang, 2012;Bungum et al, 2015;Shi, 2013;Stadermann & Goedhart, 2020). Besides, teachers must master the QP fundamental concepts with some mathematical formalism before transferring them to students (Angelo et al, 2014).…”

Section: Challenges In Teaching Quantum Physics With Integrated Stem Educationmentioning

confidence: 99%

“…As seen in the wave-particle duality conception, students developed misconceptions mostly impacted by other areas of knowledge, such as common sense and classical physics (Olsen, 2002), where students' conceptual frameworks were overlapped and mixed with classical physics and quantum mechanics. For example, the Newtonian-based deterministic worldview imposes their newfound knowledge (Hadzidaki et al, 2000;Kalkanis et al, 2003;Stadermann & Goedhart, 2020).…”

Section: The Anticipated Difficulties In Quantum Physics Learningmentioning

confidence: 99%

“…The atomic Bohr model and the development of instructional physics models that modeled electrons as negatively charged tiny billiard balls also influenced student perception of QP (Stadermann et al, 2019;Stadermann & Goedhart, 2020). Students tend to explain electrons using a classical planetary model, as shown in the Bohr atom model (Stadermann & Goedhart, 2020), and the representation students make in the classroom often corresponds to everyday experiences materials (Kalkanis et al, 2003). While in the double-slit experiment for electrons, the interference pattern formed shows electrons are a wave and not as miniature billiard balls or particles (Sayer et al, 2017).…”

Section: The Anticipated Difficulties In Quantum Physics Learningmentioning

confidence: 99%

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Issues and Challenges in Teaching Secondary School Quantum Physics with Integrated STEM Education in Malaysia

Markus

Sungkim

Ishak

2021

MJSSH

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The emphasis on STEM education in the physics curriculum moves toward addressing the 21st-century demands, but its implementation is fraught with issues and challenges. This paper exposes teachers’ and students’ concerns and problems with integrated STEM education implementation and relates them to the anticipated problem in quantum physics (QP) learning and facilitation (L&F) in secondary school. The QP L&F challenges include the odd ontological worldview and abstractness of concepts, which have created serious misconceptions among teachers and students. A solution is proposed to address this difficulty, including applying an interactive simulation and a hands-on experiment. This paper also proposes a theoretical framework for developing an instructional module to cater to meaningful QP learning with integrated STEM elements. The proposed theoretical framework has several advantages, including guidance in planning an instructional module applicable to classroom activities and explaining the topic using an inquiry-based learning (IBL) approach with learning activities coordinated using the 5E Instructional Model. Nonetheless, further research is necessary to study the instructional module’s development, usability, and L&F effectiveness in the classroom.

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Section: Challenges In Teaching Quantum Physics With Integrated Stem Educationmentioning

confidence: 99%

Section: The Anticipated Difficulties In Quantum Physics Learningmentioning

confidence: 99%

Section: The Anticipated Difficulties In Quantum Physics Learningmentioning

confidence: 99%

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Issues and Challenges in Teaching Secondary School Quantum Physics with Integrated STEM Education in Malaysia

Markus

Sungkim

Ishak

2021

MJSSH

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“…Some studies found that greater exposure to inquiry-based instruction, which is expected to promote students' scientific views, is associated with lower students' science achievement (OECD, 2016;Sjoberg, 2018;Zhao, 2017). Furthermore, Stadermann and Goedhart (2020) have found that students' achievement levels did not prohibit them to hold a scientific view; students with low ability levels were found to hold scientific views about physics concepts.…”

Section: Mixed Viewsmentioning

confidence: 99%

Upper Primary Students’ Views Vis-à-Vis Scientific Reasoning Progress Levels in Physics

Abate

Michael

Angell

2021

EURASIA J Math Sci Tech Ed

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The purpose of this study was to explore grade eight students' views in terms of different scientific reasoning progress levels. To explore students' views, phenomenographic study was used. The qualitative analysis of students' interviews elicited three major themes of students' views about scientific reasoning progress levels: naïve, mixed, and scientific, along with the underlying ways of reasoning patterns. It was revealed that students think that scientific knowledge is static, fixed, universal, certain, and unchangeable. It is recommended that a need to consider an inquiry-based teaching in combination with the contextualized approach of nature of science in school science curriculum and classroom instruction to promote students' scientific views on the nature of science and higher scientific reasoning abilities.

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“…Previous studies in Norway [4,6] have shown that quantum physics and relativity are among the topics that engage physics students to a high degree, and students may find these to be more relevant than topics of everyday practical use, such as electricity or friction. Stadermann and Goedhart [7] suggest that quantum physics can have an additional role in the physics curriculum by enhancing students' understanding of nature of science (NOS).…”

Section: Introductionmentioning

confidence: 99%

Students’ pre-instructional perspectives of quantum physics

Patterson¹,

Lin²

2020

2020 Physics Education Research Conference Proceedings

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Student exposure to modern physics topics (e.g., quantum mechanics, special relativity) is severely limited in k-12 education, but the inclusion of such topics in secondary physics curricula has gained momentum since the turn of the 21 st century. Secondary physics curricula in the U.S. predominantly focus on physics content established prior to the 20 th century, such as Newtonian mechanics, and rarely address modern topics like quantum physics. Even so, students are still frequently exposed to terms such as quantum physics through a variety of contexts prior to post-secondary education. An analysis of secondary student views of quantum physics may prove valuable to the research community and in the development and implementation of introductory quantum physics curricula. The aim of this study is to analyze secondary student perspectives of the term quantum physics. To do so, a group of secondary physics students were asked to complete a word-association test to establish a baseline of commonalities among student perspectives. The results revealed significant commonalities among student perspectives of quantum physics with the most common association being complexity. The results also revealed that students lack a relevant understanding of quantum physics principles prior to formal instruction and often view the topic as a more sophisticated version of classical physics.

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Secondary school students’ views of nature of science in quantum physics

Cited by 30 publications

References 72 publications

Issues and Challenges in Teaching Secondary School Quantum Physics with Integrated STEM Education in Malaysia

Issues and Challenges in Teaching Secondary School Quantum Physics with Integrated STEM Education in Malaysia

Upper Primary Students’ Views Vis-à-Vis Scientific Reasoning Progress Levels in Physics

Students’ pre-instructional perspectives of quantum physics

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