Development of an Ethno-Commognitive Based IEAC Learning Model to Improve TPACK of Prospective Mathematics Teachers

Moh Zayyadi; Lili Supardi; Yanti Linarsih; Harfin Lanya; Mosdalifah Mosdalifah; Andi Saputra

Development of an Ethno-Commognitive Based IEAC Learning Model to Improve TPACK of Prospective Mathematics Teachers

Moh Zayyadi^(1,), Lili Supardi⁽²⁾, Yanti Linarsih⁽³⁾, Harfin Lanya⁽⁴⁾, Mosdalifah Mosdalifah⁽⁵⁾, Andi Saputra⁽⁶⁾ | Country

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⁽¹⁾ Universitas Madura, Indonesia
⁽²⁾ Universitas Madura, Indonesia
⁽³⁾ Universitas Madura, Indonesia
⁽⁴⁾ Universitas Madura, Indonesia
⁽⁵⁾ Universitas Madura, Indonesia
⁽⁶⁾ Universitas Madura, Indonesia

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DOI: 10.23960/jpp.v13.i3.202324

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Development of an Ethno-Commognitive Based IEAC Learning Model to Improve TPACK of Prospective Mathematics Teachers. Objectives: Ethno-commognitive based IEAC learning model to improve the TPACK abilities of prospective mathematics teacher students. Methods: This type of research is development research. The development carried out in this research is a learning model consisting of a lesson plan, student worksheets, and ethno-commocognitive-based tests to improve the TPACK abilities of prospective teacher students in supporting independent learning. The development procedure used is the ADDIE model. Data analysis in this research is as follows: validation analysis, practicality analysis, and effectiveness analysis. Findings: Development of an ethno-commognitive based IEAC learning model to increase the TPACK of prospective mathematics teacher students to meet the criteria of valid, practical, and effective. Conclusion: Development of an ethno-commognitive based IEAC learning model to improve the TPACK abilities of prospective mathematics teacher students on number pattern material that meets the criteria of valid, practical and effective.

Keywords: IEAC learning model, ethno-commognitive, TPACK.

DOI: http://dx.doi.org/10.23960/jpp.v13.i3.202324

Abbitt, J. T. (2011). an investigation of the relationship between self-efficacy beliefs about technology integration and technological pedagogical content knowledge (TPACK) among preservice teachers. Journal of Digital Learning in Teacher Education, 27(4), 134–143. https://files.eric.ed.gov/fulltext/EJ936541.pdf

Aini, S. D., & Irawati, S. (2019). Strategi pembelajaran quick on the draw untuk meningkatkan aktivitas dan hasil belajar mahasiswa pada materi interpolasi [Quick on the draw learning strategy to increase student activity and learning outcomes in interpolation material]. NUMERICAL: Jurnal Matematika Dan Pendidikan Matematika, 3, 19–30. https://doi.org/10.25217/numerical.v3i1.421

Aini, S. D., Subaidi, A., & Tafrilyanto, C. F. (2023). Development of clopedimatic learning media with realistic mathematics approach based on madura’s local wisdom. AKSIOMA: Jurnal Program Studi Pendidikan Matematika, 12(1), 1372-1384.

Ambarawati, M. (2016). Analisis keterampilan mengajar calon guru pendidikan matematika pada mata kuliah micro teaching [analysis of teaching skills of prospective mathematics education teachers in the microteaching course]. PEDAGOGIA: Jurnal Pendidikan, 5(1), 81–90. http://ojs.umsida.ac.id/index.php/pedagogia/article/view/91/99

Aminah, N. (2014). Analisis kemampuan pedagogik dan self confidence calon guru matematika dalam menghadapi praktek pengalaman lapangan [Analysis of pedagogical abilities and self-confidence of prospective mathematics teachers in facing practical field experiences]. Euclid, 1(1), 55–59. https://doi.org/10.33603/e.v1i1.344

Beckman, K., Bennett, S., & Lockyer, L. (2014). Understanding students' use and value of technology for learning. Learning, Media and Technology, 39(3), 346-367.

Bilen, K. (2015). effect of micro teaching technique on teacher candidates’ beliefs regarding mathematics teaching. Procedia - Social and Behavioral Sciences, 174, 609–616. https://doi.org/10.1016/j.sbspro.2015.01.590

Brantley-Dias, L., & Ertmer, P. A. (2013). Goldilocks and TPACK: Is the construct “just right?” Journal of Research on Technology in Education, 46(2), 103–128. https://doi.org/10.1080/15391523.2013.10782615

Dewi, N. R., Rusilowati, A., Saptono, S., & Haryani, S. (2022). Project-based scaffolding tpack model to improve learning design ability and tpack of pre-service science teacher. Jurnal Pendidikan IPA Indonesia, 11(3).

Dickson, D., & Hargie, O. (2006). The handbook of communication skills (O. Hargie (ed.); Third). Routledge. https://doi.org/10.1007/978-3-319-20185-6

Graham, C. R. (2011). Theoretical considerations for understanding technological pedagogical content knowledge (TPACK). Computers and Education, 57(3), 1953–1960. https://doi.org/10.1016/j.compedu.2011.04.010

Indrawati, F. (2021). Pengembangan aplikasi pembelajaran matematika melalui TPACK [development of mathematics learning applications through tpack]. Panel Nasional Pendidikan Matematika, 58, 349–356. http://www.proceeding.unindra.ac.id/index.php/DPNPMunindra/article/view/5588

Kent, A., & Giles, R. (2017). Preservice teachers’ technology self-efficacy. SRATE Journal, 26(1), 9–20. Preservice Teachers’ Technology Self-Efficacy.

Keser, H., Karaoğlan Yılmaz, F. G., & Yılmaz, R. (2015). TPACK competencies and technology integration self-efficacy perceptions of pre-service teachers. İlköğretim Online, 14(2), 1193–1207. https://doi.org/10.17051/io.2015.65067

Kilic, A. (2010). Learner-centered micro teaching in teacher education. International Journal of Instruction, 3(1), 77–100. http://search.ebscohost.com/login.aspx?direct=true&db=ehh&AN=48497470〈=fr&site=eds-live

Kirana, D. D. (2011). Pentingnya penguasaan empat kompetensi guru dalam menunjang ketercapaian tujuan pendidikan sekolah dasar damax [The importance of mastering four teacher competencies in supporting the achievement of Damax elementary school education goals]. Journal of Physics A: Mathematical and Theoretical, 44(8), 1689–1699.

Koehler, M. J., Mishra, P., & Yahya, K. (2007). Tracing the development of teacher knowledge in a design seminar: Integrating content, pedagogy and technology. Computers and Education, 49(3), 740–762. https://doi.org/10.1016/j.compedu.2005.11.012

Kurniati, D. (2013). Pengembangan perangkat pembelajaran matematika sekolah menengah pertama dengan sistem character based integrated learning [Development of junior high school mathematics learning tools with a character based integrated learning system]. Kreano, Jurnal Matematika Kreatif-Inovatif, 4(2), 159-173.

Lobo, O. B. (2021). Antologi inspiring lecturer by paragon. Pengembangan Diri Atau Tetap Mengabdi, December 2021, 188.

Mahmud, I. (2013). Micro teaching to improve teaching method: an analysis on students’ perspectives. IOSR Journal of Research & Method in Education (IOSRJRME), 1(4), 69–76. https://doi.org/10.9790/7388-0146976

Mishra, P., & Koehler, M. J. (2006). Technological pedagogical content knowledge: a framework for teacher knowledge. Teachers College Record: The Voice of Scholarship in Education, 108(6), 1017–1054. https://doi.org/10.1177/016146810610800610

Molenda, M. (2007). In search of the elusive addie model. Performance Improvement, 46(9), 9–16. https://doi.org/10.1002/pfi

Musyafa, A. A., & Syefrinando, B. (2021). Virtual-microteaching on search-analyzing- practicing-reflection ( SAPR ): 566(Aes 2020), 380–384.

NCTM. (2000). Principles and standards for school mathematics. http://www.nctm.org/standards/content.aspx?id=16909

Ngussa, B. M. (2014). Application of ADDIE model in instruction in teaching-learning transaction among teachers of mara conference adventist secondary school, tanzania. Journal of Education and Practice, 5(25), 99–105.

Niess, M. L. (2011). Investigating TPACK: Knowledge growth in teaching with technology. Journal of Educational Computing Research, 44(3), 299–317. https://doi.org/10.2190/EC.44.3.c

Nurmasyitah, N. (2021). analisis keterampilan mengajar mahasiswa pendidikan fisika pada mata kuliah microteaching [analysis of teaching skills of physics education students in microteaching courses]. Jurnal Pendidikan Fisika, 9(1), 102. https://doi.org/10.24127/jpf.v9i1.3527

Oktafianti, R. I., Purwoko, R. Y., & Astuti, E. P. (2019). Pengembangan model pembelajaran matematika berbasis budaya melalui permainan tradisional jawa [Development of a culture-based mathematics learning model through traditional Javanese games]. Jurnal Inovasi Pendidikan Matematika (JIPM), 1(1), 29-40.

Remesh, A. (2013). Microteaching, an efficient technique for learning effective teaching. Journal of Research in Medical Sciences, 18(2), 158–163.

Restiana, N., & Pujiastuti, H. (2019). Pengukuran technological pedagogical content knowledge untuk guru matematika sma di daerah tertinggal [Measuring technological pedagogical content knowledge for high school mathematics teachers in disadvantaged areas]. Mosharafa: Jurnal Pendidikan Matematika, 8(1), 83–94. https://doi.org/10.31980/mosharafa.v8i1.407

Sari, D. I., Zayyadi, M., Osman, S., Milawati, M., & Kurniati, D. (2022). The application of synchronous and asynchronous learning using e-learning on elementary linear algebra. Jurnal Didaktik Matematika, 9(1), 22-38.

Schmidt, D. A., Thompson, A. D., Koehler, M. J., & Shin, T. S. (2014). CIE 2014 - 44th International conference on computers and industrial engineering and imss 2014 - 9th international symposium on intelligent manufacturing and service systems, joint international symposium on "the social impacts of developments in informat. CIE 2014 - 44th International Conference on Computers and Industrial Engineering and IMSS 2014 - 9th International Symposium on Intelligent Manufacturing and Service Systems, Joint International Symposium on "The Social Impacts of Developments in Informat, 42(2), 2531p.

Setiawan, Y. (2020). Pengembangan model pembelajaran matematika sd berbasis permainan tradisional indonesia dan pendekatan matematika realistik [Development of an elementary school mathematics learning model based on traditional Indonesian games and a realistic mathematics approach]. Scholaria: Jurnal Pendidikan Dan Kebudayaan, 10(1), 12-21.

Sfard, A. (2007). When the rules of discourse change, but nobody tells you: Making sense of mathematics learning from a commognitive standpoint. Journal of the Learning Sciences. https://doi.org/10.1080/10508400701525253

Sintawati, M., & Indriani, F. (2019). Pentingnya technological pedagogical content knowledge (tpack) guru di era revolusi industri 4.0. [the importance of teachers' technological pedagogical content knowledge (tpack) in the era of industrial revolution 4.0.] Seminar Nasional Pagelaran Pendidikan Dasar Nasional (Ppdn), 417–422.

Subakti, D. P., Marzal, J., & Hsb, M. H. E. (2021). Pengembangan E-LKPD Berkarakteristik budaya jambi menggunakan model Discovery Learning berbasis STEM untuk meningkatkan kemampuan berpikir kreatif matematis [Development of E-LKPD with Jambi cultural characteristics using a STEM-based Discovery Learning model to improve creative mathematical thinking skills]. Jurnal Cendekia: Jurnal Pendidikan Matematika, 5(2), 1249-1264.

Syukur, I. A. (2014). Profesionalisme guru dalam mengimplementasikan teknologi informasi dan komunikasi di Kabupaten Nganjuk [Teacher professionalism in implementing information and communication technology in Nganjuk Regency]. Jurnal Pendidikan Dan Kebudayaan, 20(2), 200–210. https://doi.org/10.24832/jpnk.v20i2.138

Tantu, Y. R. P., & Christi, L. Y. (2020). Analisis pelaksanaan microteaching mahasiswa pgsd pada mata kuliah PSAP Sains dan Teknologi [Analysis of the Implementation of Microteaching for PGSD Students in PSAP Science and Technology Courses]. Jurnal Basicedu, 3(2), 524–532.

Turmuzi, M., & Kurniawan, E. (2021). Kemampuan mengajar mahasiswa calon guru matematika ditinjau dari technological pedagogical and content knowledge (tpack) pada mata kuliah micro teaching [The teaching ability of prospective mathematics teacher students is reviewed from technological pedagogical and content knowledge (tpack) in the micro teaching course]. Jurnal Cendekia : Jurnal Pendidikan Matematika, 5(3), 2484–2498. https://doi.org/10.31004/cendekia.v5i3.881

Zayyadi, M., Nusantara, T., Hidayanto, E., Sulandra, I. M., & Sa’dijah, C. (2020). Content and pedagogical knowledge of prospective teachers in mathematics learning: commognitive framework. Journal for the Education of Gifted Young Scientists, 8(1), 515–532. https://doi.org/10.17478/jegys.642131

Zayyadi, M., Nusantara, T., Subanji, S., Hidayanto, E., & Sulandra, I. M. (2019). A commognitive framework: the process of solving mathematical problems of middle school students. International Journal of Learning, Teaching and Educational Research, 18(2), 89–102. https://doi.org/10.26803/ijlter.18.2.7

Zayyadi, M., Nusantara, T., & Lanya, H. (2022). The commognitive perspective of teaching skills of prospective mathematics teachers in microteaching subjects. Jurnal Elemen, 8(1), 43-54.

Zhang, R., Liu, X., Yang, Y., Tripp, J., & Shao, B. Y. (2018). Preservice science teachers’ instructional design competence: Characteristics and correlations. Eurasia Journal of Mathematics, Science and Technology Education, 14(3), 1075–1096. https://doi.org/10.12973/ejmste/81553.

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