Abstract
Aim/PurposeTo study on the effects of integrated technology-based approach and peer coaching on teachers’ TPACK and students’ understanding in learning geometry in secondary level.
 Background Teachers have confronted with difficulties while applying technology in classroom teaching. The need of cooperation with others under the peer coaching which supports and encourages teachers in generating ideas for improving classroom teaching is the key to improve their designing of the integrated technology-based approach lessons to promote and support an effective teaching and learning of geometry.
 Methodology Participants were three in-service teachers and one pre-service teacher who had taught geometry in grade 7 and samples were thirty-two seventh-grade students of a school in Yala, Thailand. Questionnaire and open-ended questions were used for assessing teachers’ development of TPACK while geometric achievement test was employed to examine students’ understanding before and after learning with the integrated technology-based approach lesson plans under the peer coaching process. Descriptive statistics and a Developmental Model for TPACK were used for assessing teacher’s TPACK while paired-samples t test and one-sample t test were used to determine students’ understanding in geometry.
 ContributionThis research fulfills the effectiveness of geometry teaching and learning process by integrating old and new technologies to design new technology-based approach under the process of peer coaching. The contribution in this study not only enhanced students’ learning in geometry, but teachers also received feedback for developing and improving their essential skills which are important for using technologies in teaching practice and developing their TPACK.
 Findings The teacher participants’ development of TPACK levels improved after the process of peer coaching. The students enhanced their understanding in learning geometry after the use of the integrated technology-based approach lesson plans under the process of peer coaching.
 Recommendations for Practitioners Practitioners can select the three alternative types of technologies in the integrated technology-based approach lesson plans based on context and school’s readiness, teachers, and students which should concentrate to an effective geometry learning for students.
 Recommendations for Researchers Researchers should investigate the effects of appropriate, modern, and easily-accessible technologies integrating with peer coaching process to improve an effective of geometry learning.
 Impact on Society This research indicated the effectiveness of students’ geometry learning that showed the remarkable impact on supporting students in learning visualization. It considers as meaningful learning experience that they could use technologies for their learning. A solid foundation on geometry through a meaningful representation that they acquired during learning enabled them to solve real life problems in their society in the future.
 Future Research Researchers should investigate the effects of the integrated technology-based approach and the peer coaching process in teaching and learning geometry in higher level and in other different topics..
Highlights
Geometry, one of the focal topics in mathematics is a fundamental skill (National Council of Teachers of Mathematics, 2000) in facilitating students’ problem-solving skills across various topics in teaching of mathematics and real-life experience through representation (Clements, 2003)
The analysis shows that two teacher participants had their Technological Pedagogical Content Knowledge (TPACK) at Level 1 because the teachers were able to employ the technology and realize the alignment of the technology for teaching mathematical contents; they failed to integrate the technology in their teaching practice in classroom
This study highlights the effectiveness of the integrated technology-based approach under the process of peer coaching in enhancing teachers’ TPACK and students’ understanding in learning geometry
Summary
One of the focal topics in mathematics is a fundamental skill (National Council of Teachers of Mathematics, 2000) in facilitating students’ problem-solving skills across various topics in teaching of mathematics and real-life experience through representation (Clements, 2003). Primary level students are taught skills such as analysing and understanding features and properties of different geometric shapes, constructing arguments of mathematical relationships in geometry as well as applying visualisation, spatial reasoning and geometric modelling (National Council of Teachers of Mathematics, 2000) while secondary level students learn various skills in practicing, drawing, constructing, investigating, observing, conjecturing about geometric properties, proving, analysing, and justifying with conclusions and reasonings (Serkoak, 1996). Academic result in Trends in International Mathematics and Science Study (TIMSS) 2015 reported evidence of learning and teaching geometry failure in Thailand. Thai students’ below-standard results with a mean score of 429 in comparison to the 500-mark global benchmark revealed their overall failure, which caused Thailand to rank at 30th from 39 participating countries in 2015 (Mullis, Martin, Foy, & Hooper, 2015)
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