Design of Quantum Learning-Based Numeracy Worksheet on Uncertainty and Data Content
DOI:
https://doi.org/10.23917/varidika.v36i1.5149Keywords:
Worksheet, Numeracy, Quantum Learning, ProbabilityAbstract
Previous study attempted to create worksheets to boost students' comprehension and numeracy skills. However, there is little research on designing numeracy worksheets using Quantum Learning. This study intends to provide uncertainty-and-data-content-of-numeracy worksheets using Quantum Learning to help students enhance their grasp of probability material and numeracy skills. The incorporation of Numeracy into the uncertainty and data content worksheet distinguishes this study from past research. This is supported by earlier research, which suggests that incorporating Numeracy in worksheets can help pupils improve their numeracy skills. Furthermore, Numeracy, which is concerned with problem solving in a variety of real-world scenarios, adheres to Quantum Learning, whose learning stages connect the content to real life. This study employs the 4D development paradigm, which has been condensed into 3D: define, design, and develop. Data gathering methods include questionnaires, observation of learning implementation, and testing. The analysis is both descriptively qualitative and descriptively quantitative. This study involved 31 kids from one of Indonesia's junior high schools. The findings of this study show that the worksheet is valid, practical, and successful, indicating that it was doable. The study found that students' grasp of probability material improved, as did their numeracy skills. The worksheet creation will assist instructors to construct excellent mathematics learning combined with numeracy.
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References
Akker, J. J. H. van den (Ed.). (2012). Design approaches and tools in education and training. Dordrecht, Boston: Kluwer Academic Publishers.
Albet Maydiantoro. (2021). Research Model Development. Journal of Indonesian Educator Professional Development, 1(2), 29–35. http://repository.lppm.unila.ac.id/43959/1/ARTICLE%20JPPPI.pdf
Anggraini, K. E., & Setianingsih, R. (2022). Analysis of Numeracy Ability of High School Students in Solving Minimum Competency Assessment Questions. MATHEdunesa, 11(3), 837–849. https://doi.org/10.26740/mathedunesa.v11n3.p837-849
Anggraini, W., Yenny Nawar, & Kodri Madang. (2016). Development of Student Worksheets Based on Learning Cycle 7E Circulating System Materials in Humans for Class XI of High School. Journal of Biology Learning: A Study of Biology and Its Learnings, 3(1), 49–57. https://ejournal.unsri.ac.id/index.php/fpb/article/view/4956
Anisa, A., Medriati, R., & Putri, D. H. (2019). The Effect of The Quantum Learning Model On The Understanding Of Concepts And Learning Outcomes Of Class X Students. Journal of Physics, 2(3), 201–208. https://doi.org/10.33369/jkf.2.3.201-208
Australian Curriculum, Assesment and Reporting Authority (ACARA). (2014). Numeracy (Version 8.4). https://www.australiancurriculum.edu.au/f-10-curriculum/general-capabilities/numeracy
Azhar Arsyad. (2019). Learning Media (21 ed.). Yogyakarta: Raja Grafindo Pusaka.
Deda, Y. N., Disnawati, H., & Daniel, O. (2023). How Important of Students’ Literacy and Numeracy Skills in Facing 21st-Century Challenges: A Systematic Literature Review. Indonesian Journal of Educational Research and Review, 6(3), 563–572. https://doi.org/10.23887/ijerr.v6i3.62206
DePorter, B., & Hernacki, M. (2015). Quantum learning: Unleash the genius within you. London: Piatkus.
DePorter, B., Reardon, M., & Singer-Nourie, S. (2013). Quantum teaching: Orchestrating student success. Boston, Mass: Allyn and Bacon.
Fitriani, N., Gunawan, G., & Sutrio, S. (2017). Creative Thinking in Physics with worksheet-Assisted Conceptual Understanding Procedures (CUPs) Learning. Jurnal Pendidikan Fisika dan Teknologi, 3(1), 24–33. https://doi.org/10.29303/jpft.v3i1.319
Geiger, V., Goos, M., & Forgasz, H. (2015). A rich interpretation of numeracy for the 21st century: A survey of the state of the field. ZDM, 47(4), 531–548. https://doi.org/10.1007/s11858-015-0708-1
Ginting, I. R. F., & Sutirna. (2021). Analysis of the Ability to Understand Mathematical Concepts in Two-Variable Linear Equation System Materials. MAJU, 8(1), 350–357. https://ejournal.stkipbbm.ac.id/index.php/mtk/article/view/638/563
Husna, N. M., Isnarto, & Ali Shodiqin. (2022). Integration of Numeracy Literacy in Mathematics Learning in Schools. Proceedings of the National Postgraduate Seminar of Univeritas Negeri Semarang, 5(1), 841–845.
Ikhsan, I., & Sugianto, S. (2021). The Development of Student Discussion Sheets Based on Syntax Quantum Learning Integrated Quisiss Application on Rigid Object Equilibrium Material. UPEJ Unnes Physics Education Journal, 10(2). https://journal.unnes.ac.id/sju/upej/article/view/54200
Kemdikbud. (2021). Framework Minimum Competency Assessment. Jakarta: Center for Assessment and Learning, Research, Development and Books Agency, Ministry of Education and Culture.
Khakima, L. N., Leni Marlina, & Siti Fatimah Az Zahra. (2021). Application of Numeracy Literacy in the Learning of MI/SD Students. National Seminar PGMI, 1.
Kusuma, E. D., Gunarhadi, & Riyadi. (2018). The Effectiveness of Problem-Based Quantum Learning Models on Problem-Solving Skills. Journal of Elementary Education, 9(1), 54–64. https://journal.unj.ac.id/unj/indek.php/jpd/article/view/JPD.091.05
Lestari, D. D., & Muchlis, M. (2021). The Development Of Contextual Teaching And Learning (Ctl) Oriented E-Lkpd To Train Students' Critical Thinking Skills In Thermochemistry Material Class Xi Sma. Indonesian Journal of Chemistry Education, 5(1). https://doi.org/10.23887/jpk.v5i1.30987
Loka, D., Arifin, S., & Nizar, H. (2022). Development of Student Worksheets with an Open-Ended Approach Development of Student Worksheets with an Open-Ended Approach. Jurnal Of Education in Mathematics, Science, And Technology, 5(2). https://ftk.uinjambi.ac.id/Jurnal_Jemst/index.php/jemst/article/view/78
Miftah, R. N., & Setyaningsih, R. (2022). THE DEVELOPMENT OF LKPD BASED ON MINIMUM COMPETENCY ASSESSMENT ON GEOMETRY MATERIAL TO IMPROVE NUMERACY LITERACY SKILLS. AKSIOMA: Journal of Mathematics Education Study Program, 11(3), 2199. https://doi.org/10.24127/ajpm.v11i3.5780
Miralda, D., & Marhaeni, N. H. (2023). Effectiveness Of Using Lkpd To Improve Students' Numeracy Literacy. Transformation : Journal of Mathematics and Mathematics Education, 7(2), 147–158. https://doi.org/10.36526/tr.v7i2.2872
Mulyatiningsih, E. (2016). Applied Research in Education & Engineering. Yogyakarta: UNY Press.
OECD. (2017). PISA for Development Assessment and Analytical Framework: Reading, Mathematics and Science (Preliminary Version). Paris: OECD Publishing.
Ozmen, H., & Yildirim, N. (2015). Effect Of Work Sheets on Student’s Success: Acids and Bases Sample. Journal Of Turkish Science Education, 2(2), 64–67.
Pradhana, A. S., & Sutopo. (2022). Development of 3D Animation Video-Based Learning Media on Turning Operational Materials. Journal of Mechanical Engineering Vocational Education, 10(1). https://doi.org/10.21831/teknik%20mesin.v10i1.19116
Prastowo, A. (2018). Creative Guide to Creating Innovative Teaching Materials. Bandung: DIVA Press.
Pusmenjar. (2020). Minimum Competency Assessment Question Development Design. Jakarta: Center for Assessment and Learning, Research, Development and Books Agency, Ministry of Education and Culture.
Putra, R. P., & Syarifuddin, H. (2019). The Development Of Teaching Materials For Data Presentation Based On Character Education In Grade Iv Elementary School. Jurnal Basicedu, 2(1), 264–270. https://doi.org/10.31004/basicedu.v3i2.1
Riduwan. (2018). Scale of Measurement of Research Variables. Bandung: Alfabeta.
Rodiyana, R. (2018). The Effect Of The Application Of Quantum Learning Strategies On Students' Motivation And Understanding Of Concepts. Jurnal Cakrawala Pendas, 4(2), 45. https://doi.org/10.31949/jcp.v4i2.1099
Sari, A. P. P., & Lepiyanto, A. (2016). The Development Of Student Activity Sheets (Lkpd) Based On Scientific Approach For High School Students Class X On Fungi Material. BIOEDUKASI (Journal of Biology Education), 7(1). https://doi.org/10.24127/bioedukasi.v7i1.489
Septian, D., Dhita Dhilarwan Sembiring, Dinda Shefti Azmi, & Dewi Putri Purba. (2023). Integration of Numeracy Literacy in Mathematics Learning in Schools. Tambusai Education Journal, 7(3), 30859–30862. https://doi.org/10.31004/jptam.v7i3.11991
Sevina, I., Nuryadi, & Nafida Hetty Marhaeni. (2022). Students' Response to E-LKPD Assisted by Liveworksheets as Triangle and Quadrilateral Teaching Materials. Journal On Teacher Education, 3(2), 315–323.
Shoimin, A. (2014). 68 Innovative Learning Models in the 2013 Curriculum. Yogyakarta: Ar-Ruzz Media.
Sudarman, S. W., & Vahlia, I. (2016). The Effectiveness of the Use of Quantum Learning Methods on Students' Ability to Understand Mathematical Concepts. Al-Jabar : Journal of Mathematics Education, 7(2), 275–282. https://doi.org/10.24042/ajpm.v7i2.42
Toharun, M. (2022). The Development of LKS Based on Quantum Learning Model on Rectangular Materials Class VII at Junior High School Amal Mulia Boarding Pekanbaru. Universitas Islam Negeri Sultan Syarif Kasim Riau.
Trinova, Z., Sasmi Nelwati, & Nadiatul Khairo. (2022). Quantum Learning Model in Improving Students' Critical Thinking Skills. Journal of Islamic Education at the Elementary, 12(1), 20–33. https://doi.org/10.15548/alawlad.v12i1.3953
Widyantini, T. (2013). Preparation of Student Activity Sheets as Teaching Materials. Yogyakarta: PPPPTK Matematika.
Zahran, M. (2019). Quantum Learning: Specifications, Principles And Factors That Influence It. JRTIE; Journal of Research and Thought of Islamic Education, 2(2). http://jurnaliainpontianak.or.id/index.php/jrtie/article/download/1405/pdf
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