Yerizon; Triwani; Edwin Musdi

Effectiveness of Mathematics Learning Devices Based on Flipped Classroom to Improve Mathematical Critical Thinking Ability Students

Full Text (PDF, 331KB), PP.41-46

Views: 0 Downloads: 0

Author(s)

Yerizon ^1,* Triwani ¹ Edwin Musdi ¹

1. Department of Mathematics, Universitas Negeri Padang, Padang, Indonesia

* Corresponding author.

DOI: https://doi.org/10.5815/ijeme.2022.03.05

Received: 5 May 2021 / Revised: 30 Jun. 2021 / Accepted: 25 Jul. 2021 / Published: 8 Jun. 2022

Index Terms

Learning device, flipped classroom, mathematical critical thinking

Abstract

Involving students actively in the learning process is one of the ways that can be used in developing the learning objectives of mathematics which is to improve students' critical thinking skills. Students can be called have mathematical critical thinking skills if they have a way of thinking systematically, have an awareness in thinking, and have the ability to distinguish a truth from truth, and can provide arguments from a problem. In fact, students do not have the knowledge independently before the learning process begins so the students only expect new information at school. The lack of learning resources that are easy for students to understand makes learning still go in one direction and create passive learners. The impact is made students having difficulty in solving problems with varying level of difficulty due to insufficient time to finish it at school. These unsolved questions become independent tasks at home, and students become more difficult to solve it and caused students have not developed the ability to think critically mathematically yet. The purpose of this study is to create a product in the form of an effective learning video to improve students' critical thinking skills. The development model used is Model Plomp which consists of three phases, namely the initial investigation phase, the prototype development phase, and the assessment phase. The subjects of this study were class XI students and a mathematics teacher. Based on the results of observations during the learning process, students look active in discussions and can solve problems that are given systematically. The results of the final test of students 'critical thinking skills, the students' mathematical critical thinking skills increased to 87.87%. It shows that students have good mathematical critical thinking skills after using flipped classroom-based mathematics learning tools. So, it can be concluded that the flipped classroom-based learning device is effective to improve students' mathematical critical thinking skills.

Cite This Paper

Yerizon, Triwani, Edwin Musdi, " Effectiveness of Mathematics Learning Devices Based on Flipped Classroom to Improve Mathematical Critical Thinking Ability Students ", International Journal of Education and Management Engineering (IJEME), Vol.12, No.3, pp. 41-46, 2022. DOI: 10.5815/ijeme.2022.03.05

Reference

[1]Depdiknas, “Peraturan Menteri Pendidikan dan Kebudayaan Nomor 22 Tahun 2014”, Jakarta: Depdiknas, 2014.

[2]A. Yusuf, “Analisis Kemampuan Berpikir Kritis Matematis Siswa pada Materi Segitiga”, Jakarta: UIN Syarif Hidayatullah, 2016.

[3]Y. Shi, “Problem Solving, Computer Technology, and Students’ Motivation in Learning Mathematics”, International Journal of Education and Management Engineering, 1(1), pp 1-5, 2011.

[4]L. Chang-xing, “Research and Reflections on College Mathematics Teaching Based on Information Educational Technology”, International Journal of Education and Management Engineering, 2(7), pp. 43-47, 2011.

[5]E. Mauch & Y. Shi, “One Approach to Explore a Range of Problem Solving Strategies in the Classroom”, International Journal of Mathematical Education in Science and Technology, 35(6), pp 912 - 917, 2004.

[6]E.B. Ebosele, “Critical Thingking: Essence for Teaching mathematics and Mathematics Problem Solving Skills”. Department of Mathematics and Computer Science, Lagos State University, 5(3), pp.39 - 46, 2012.

[7]J. Nouri, “The Flipped Classroom: for Active, Effective, and Increased Learning – especially for low achievers”. International Journal of Educational Technology in Higher Education, 12(3), pp. 23 - 31, 2016.

[8]R. Fedistia & E. Musdi, “Efektivitas Perangkat Pembelajaran Berbasis Flipped Classroom untuk Meningkatkan Kemampuan Penalaran Matematis Peserta Didik”, Jurnal Didaktik Matematika, 7(1), pp. 45 - 59, 2020.

[9]K. Sinaga, “Penerapan Flipped Classroom pada Mata Kuliah Kimia Dasar untuk Meningkatkan Self-regulated Learning Belajar Mahasiswa”, Jurnal Internasional Pendidikan Kimia, 11(2), pp. 17 - 26, 2017.

[10]H.S. Novis, “Efektivitas Flipped Classroom Terhadap Sikap dan Keterampilan Belajar Matematika di SMK” Jurnal Managemen Pendidikan, 11(2), pp. 123 - 130, 2016.

[11]A. Roehl et al, “Flipped Classroom: An Opportunity to Engage Millennial Students Through Active Learning Strategies”, JFCS 105(2), pp. 76 - 89, 2013.

[12]J. Bregman & A. Sams, Flip Your Classroom. USA: International Society for Technology in Education, 2012.

[13]M.E.A. Saputra & Mujib, “Efektivitas Model Flipped Classroom Menggunakan Video Pembelajaran Matematika Terhadap Pemahaman Konsep”. Jurnal Matematika, 1(2), pp. 173 - 179, 2018.

[14]J. Abah, et al, “A Flipped Applied Mathemathics Classroom: Nigerian University Students Experience and Percepcions”. Mathematical Education Series, 42(1), pp.78 - 87, 2017.

[15]B. DePorter & Hernacki. “Quantum Learning: Membiasakan Belajar Nyaman dan Menyenangkan”. Bandung: Kaifa, 2001.

[16]J. Lamsa, et al, “Pretime Learning: Collaborative and Technology-enchanced Studying with Genuine Teacher Presence”. International Journal of STEM Education, 5(20), pp. 21 - 32, 2018.

[17]H.N. Damayanti & S. Sutama, “Efektivitas Flipped Classroom Terhadap Sikap dan Ketrampilan Belajar Matematika di SMK”. Manajemen Pendidikan, 11(1), pp. 2 - 7, 2016.

[18]A. Pratiwi, R. Sahputra & L. Hadi, “Pengaruh Model Flipped Classroom Terhadap Self-confidence dan Hasil Belajar Siswa SMAN 8 Pontianak”. Jurnal Pendidikan dan Pembelajaran Untan, 6(11), pp. 1 - 13, 2017.

[19]S. Arikunto,“Dasar-Dasar Evaluasi Pendidikan”. Jakarta: Bumi Aksara, 2008.

[20]T. Plomp & N. Nieveen. “Educational Design Research”, Enschede: Netherland Institute for Curiculum Development (SLO), 2013.

[21]Velegol, et al, “The Evolution of a Flipped Classroom: Evidence-Based Recommendations”. American Society for Engineering Education, 4(3), pp. 37- 45, 2015.

[22]Yerizon, et al. “Development of Student Worksheets Based on M-APOS Approach with Mind Mapping to Improve Mathematical Communication Ability of Grade VII Students of Middle School”. International Journal of Scientific & Technology Research, 8(6), pp. 352 - 356, 2019.

[23]Triwani et al., “Practicality of Learning Sets Based on Flipped Classroom to Increase Students Mathematical Critical Thinking Ability in Class XI High School”, International Journal of Science and Research, 8(2), pp. 1179 - 1182, 2019.

[24]T. Muir, “Student and Parent Perspectives on Flipping the Mathematics Classroom”. Mathematics Education Research Group of Australasia, Paper presented at the Annual Meeting of the Mathematics Education Research Group of Australasia (MERGA). Australia, 2015.

[25]U. Steen, “A Qualitative Investigation of Student Engagement in A Flipped Classroom”. Teaching in Higher Education, 23(3), pp. 307 - 324, 2018.

[26]E. Musdi & S. Kurnia, “Effectiveness of Developing Mathematical Learning Device Base on Open Ended Approach to Improve Mathematical Creative Thinking Ability Junior High School Students”. 2nd International Conference on Mathematics and Mathematics Education, 2018.

International Journal of Education and Management Engineering (IJEME)