Pattawan Narjaikaew scite author profile

This paper reports on the implementation of a guided note taking strategy to promote Thai students' understanding of electromagnetism during a lecture course. The aim of the study was to enhance student learning of electromagnetism concepts. The developed guided notes contain quotations, diagrams, pictures, problems, and blank spaces to encourage student interactive engagement with the lectures. The guided note templates were critiqued by a group of experienced university physics lecturers and piloted with graduate physics education students to check the content validity. Over 300 first year university students (aged about 18-19 years) attended lectures that did not involve guided note taking. Six hundred students participated in the guided note taking approach. Students' understanding of electromagnetism was investigated using a conceptual test. Comparison of the pre-and post-test results of the two groups of students indicated that students who were involved in the guided note taking approach performed better on the conceptual test than students who were not involved in this approach. From interviews, it was found that students viewed the guided note taking approach as a supportive tool that helped them concentrate on the lecture. Promoting student involvement in the lecture class through the process of guided note taking was shown to be a meaningful learning strategy for first year university physics classes.

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Alternative Conceptions of Primary School Teachers of Science about Force and Motion

Narjaikaew

2013

Procedia - Social and Behavioral Sciences

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Magnetism Teaching Sequences Based on an Inductive Approach for First-Year Thai University Science Students

Narjaikaew

Emarat

Arayathanitkul

et al. 2010

Int J of Sci and Math Educ

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The study investigated the impact on student motivation and understanding of magnetism of teaching sequences based on an inductive approach. The study was conducted in large lecture classes. A pre-and post-Conceptual Survey of Electricity and Magnetism was conducted with just fewer than 700 Thai undergraduate science students, before and after being taught the concepts, in three academic years. For 2005 and 2006, overall, the students had a better understanding of concepts associated with electricity, but a majority of the students seemed not to understand magnetism after the teaching. Drawing on these findings, the teaching sequences of the magnetism topic were developed, and then implemented in the academic year 2007. The teaching sequences included demonstrations and visuals to help students infer rules and theories for themselves (inductive method). In addition, interactive notes, information on historical science discoveries about magnetic phenomenon, questions, student discussions, and magnetism problems were used to support student learning during lectures. Students in the academic year 2007 performed significantly better after the teaching. In addition, the students had a positive perception towards the teaching sequences, which allowed them to be involved more actively during lectures.

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Designing Inductive Instructional Activities in a Teacher Training Program to Enhance Conceptual Understandings in Science for Thai Science and Non-science Teachers

Narjaikaew¹,

Jeeravipoonvarn²,

Pongpisanou³

et al. 2016

ujer

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Teachers are viewed as the most significant factor affecting student learning. However, research in science education showed that teachers often demonstrate misunderstandings of science very similar to students. The purpose of this research was to correct conceptual difficulties in science of Thai primary school science and non-science teachers using inductive learning activities in a teacher training program. An eighteen hour teacher training program was designed to address conceptual difficulties in science based on research findings of three science concepts including force and motion, simple electric DC circuits, and astronomy. A pre-and post-test with 15 multiple-choice questions for each of those concepts were administered to thirty volunteer primary school science and non-science teachers in 2014. Data was entered into Excel and analyzed for a correct percentage for each question. There were overall gains in understanding between the pre-and post-tests for these three concepts when teachers were taught by inductive methods. It suggests that using inductive learning activities can be used as a meaningful teacher training program for science and non-science teachers to correct conceptual difficulties in science.

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Building a simple celestial sphere for understanding the apparent motion of the stars in the sky

Narjaikaew¹

2018

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