Johannes Addido scite author profile

Teaching science concepts for conceptual understanding has its challenges. Bringing about conceptual change in the science classroom can be difficult because most concepts are complicated and often counter-intuitive in the teaching and learning of science concepts. A review of the literature indicates that the conceptual change model, CCM can be an effective teaching technique in addressing misconceptions and improving conceptual understanding when it comes to science instruction. The aim of this research was to find out the effect of the conceptual change model on pre-service teachers’ conceptual understanding regarding the topic of forces and motion. Using data from tests and questionnaires, the research questions were answered by quantitatively analyzing the collected data. The analysis revealed that there is a statistically significant correlation between the conceptual change model and the conceptual understanding of the pre-service teacher participants. Overall, the results provide evidence in support of the effectiveness of the conceptual change model, CCM in addressing misconceptions and promoting conceptual understanding of forces and motion among the pre-service teacher participants that volunteered for this research. The results also indicate that the CCM is a teaching model which must be considered by science educators and teachers as they seek to address issues related to misconceptions and conceptual understanding in the teaching of science topics. Keywords: conceptual change, conceptual change model, conceptual understanding, misconceptions, pre-service teachers, science education

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Teaching Newtonian physics with LEGO EV3 robots: An integrated STEM approach

Addido

Burrows

Walwema

2023

EURASIA J Math Sci Tech Ed

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This paper investigated the effect of using LEGO EV3 robots to teach Newton’s second law with conceptual understanding to a group of 14 to 18-year-olds in an after-school STEM education program. 74 teenagers participated in this research study. A quantitative methods approach involving descriptive analyses, paired-sample t-test, and repeated measures ANOVA were used to answer the research questions. The results showed that the LEGO EV3 robots positively affected participants’ understanding of Newton’s second law of motion and their interest in pursuing STEM education and careers. In addition, the descriptive analyses from the pre- and post-interest questionnaire revealed that participants were more confident and willing to learn with robotic devices after the activity than before. Repeated measures ANOVA analysis indicated that scaffolded programming tasks affected participants’ computational thinking skills. Implications include the purposeful use of LEGO EV3 robotics and potentially other educationally focused programmable devices (e.g., micro:bit, Spheros, Arduinos, etc.).

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The Effect of the Conceptual Change Model on Conceptual Understanding of Electrostatics

2022

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This research investigated the effectiveness of the conceptual change model (CCM) in addressing pre-service elementary teachers’ misconceptions and promoting their conceptual understanding of electrostatics. The participants were 55 pre-service elementary teachers enrolled in an elementary physical science course, 44 females and 11 males. An embedded mixed-methods approach was employed to help answer the two research questions put forward in this research. The results showed that the CCM moderately correlated with participants’ conceptual understanding of electrostatics. The data from the three open-ended questions showed that the CCM positively affected participants’ conceptions of the topic of electrostatics. The results of this research contribute to the literature on the effect of the conceptual change model in building conceptual understanding and minimizing pre-service teachers’ misconceptions about electrostatics. The results also showed that the phases of the CCM did not have the same effect on participants’ conceptual understanding of electrostatics. This information brings to the fore a discussion about the optimal approach to using the conceptual change instructional model.

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Impacting Science Teacher Education: The Conceptual Change Approach

Addido¹

2022

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Johannes Addido

Addressing Pre-Service Teachers’ Misconceptions and Promoting Conceptual Understanding Through the Conceptual Change Model

Teaching Newtonian physics with LEGO EV3 robots: An integrated STEM approach

The Effect of the Conceptual Change Model on Conceptual Understanding of Electrostatics

Impacting Science Teacher Education: The Conceptual Change Approach

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