PENERAPAN MEDIA PEMBELAJARAN KIMIA BERBASIS SCIENCE, TECHNOLOGY, ENGINEERING, AND MATHEMATICS (STEM) UNTUK MENINGKATKAN HASIL BELAJAR SISWA SMA/ SMK PADA MATERI REAKSI REDOKS
(1) Institut Agama Islam Negeri Jember
(*) Corresponding Author
Abstract
Penelitian ini bertujuan untuk menguji pengaruh penerapan media pembelajaran terintegrasi berbasis Science, Technology, Engineering, and Mathematics (STEM) untuk meningkatkan hasil belajar kimia pada materi reaksi redoks. Rancangan penelitian berupa penelitian eksperimen yang terdiri dari validasi dan implementasi media pada pembelajaran kimia SMA/SMK. Media pembelajaran STEM yang dikembangkan berupa sensor gas CO2 dilengkapi dengan modul ajar. Hasil validasi menunjukkan media pembelajaran kimia terintegrasi berbasis STEM memperoleh kriteria valid. Uji coba lapangan dilakukan pada 66 siswa kelas eksperimen dan kontrol di SMKN 5 Surabaya. Berdasarkan hasil uji coba lapangan, terdapat perbedaan hasil belajar yang signifikan baik aspek kognitif, afektif, dan psikomotor.
Keywords
Full Text:
PDFReferences
Aksela, M. K. (2011), “Engaging Students for Meaningful Chemistry Learning Through Microcomputer-based Laboratory (MBL) Inquiry”, Educació Química EduQnúmero, Vol. 9, hal. 30-37.
Anderson, R. G. W. (2013), “Chemistry Laboratories, and How They Might be Studied”, Studies in History and Philosophy of Science, Vol.44, hal. 669-
Barrett, B.S., Moran, A.L., dan Woods, J.E. (2014), “Meteorology Meets Engineering: An Interdisciplinary Stem Module For Middle and Early Secondary School Students”, International Journal of STEM Education, hal. 1-6.
Chi, H., dan Jain, H. (2011), “Teaching Computing to STEM Students Via Visualization Tools”, Procedia Computer Science, Vol.4, hal. 1937-1943.
Handelsman, Jo. May, D. E., Beichner, R., Bruns, P., Chang, A., DeHaan, R., Gentile, J., Lauffer, S., Stewart, J., Tilghman, S. M., Wood, W. B. (2010), “Scientific Teaching”, Science New Series, Vol. 304, No. 5670, hal. 521-522.
Hinze, S. R., Rapp, D. N., Williamson, V. M., Shultz, M. J., Deslongchamps, G., Williamson, K. C. (2013), “Beyond ball-and-stick: Students’ Processing of Novel STEM Visualizations”, Learning and Instruction, Vol. 26, hal.12-21
Inel, D., dan Balim, A. G. (2013), “Concept Cartoons Assisted Problem Based Learning Method in Science and Technology Teaching and Students’ Views”, Procedia-Social and Behavioral Sciences, Vol. 93, hal. 376-380.
Jeenthong, T., Ruenwongsa, P., dan Sriwattanarothai, N. (2014), “Promoting Integrated Science Process Skills Through Betta-live Science Laboratory”, Procedia-Social and Behavioral Sciences, Vol. 116, hal. 3292-3296.
Johnson, L., Adams Becker, S., Estrada, V., and Martín, S. (2013), Technology Outlook for STEM+Education 2013-2018: An NMC Horizon Project Sector Analysis. The New Media Consortium, Austin, Texas.
Juan, Llorens, A., dan Molina. (2011), “Problem Based Learning In Introductory Organic Chemistry: A Laboratory Activity Based On The Anti-Sprouting Effect Of Essential Oils”, Australian Journal of Education Chemistry, Vol. 71, No. 2, hal. 6-12.
Klopfer, E., Osterwell, S., Groff, J., dan Haas, J. (2009), Using of Technology Today in the Classroom: The instructional Power of Digital Games ocial Networking Simulations and How Teachers Can Leverage Them, Massachusetts Institute of Technology.
Liu, X., Cheng, S., Liu, H., Hu, S., Zhang, D., Ning, H. (2012), “A Survey on Gas Sensing Technology”, Sensors, Vol. 12, hal. 9635-9665.
Nugent, G., Baker, B.S., Grandgenett, N., dan Adamchuk, V.I. (2010), “Impact of Robotics and Geospatial T echnology Interventions on Youth STEM Learning and Attitudes”, Journal of Research on Technology in Education, Vol.42, No.4, hal. 391-408.
Omosewo, E. O. (2006), “The Laboratory Teaching Method in Science Based Disciplines”, African Journal of Educational Studies, Vol. 4, No. 2, hal. 65-73.
Saxton, E., Burns, R., Holveck, S., Kelley, S., Prince, D., Rigelman, N., dan Skinner, E. A. (2014), “A Common Measurement System For K-12 STEM Education: Adopting An Educational Evaluation Methodology that Elevates Theoretical Foundations and Systems Thinking”, Studies in Educational Evaluation, Vol. 40, hal. 18-35.
Shehu, Garba. (2015). “Two Ideas of Redox Reaction: Misconceptions and Their Chalenges in Chemistry Education”. Journal of Research & Methods in Education. Vol 5(1):15-20
Srisawasdi, N. (2012), “Students’ Teacher Perceptions of Computerized Laboratory Practise for Science Teaching: A Comparative Analysis”, Procedia-Social and Behavioral Sciences, Vol. 46, hal. 4031-4038.
Wetchakun, K., Samerjai, T., Tamaekong, N., Liewhiran, C., Siriwong, C., Kruefu, V., Wisitsoraatb, A., Tuantranont, A., Phanichphant, S. (2011), “Semiconducting Metal Oxides As Sensors for Environmentally Hazardous Gases”, Sensors and Actuators B, Vol. 160, No. 1, hal. 580–591.
Article Metrics
Abstract view : 5261 timesPDF - 898 times
DOI: https://doi.org/10.26714/jps.6.2.2018.32-40
Refbacks
- There are currently no refbacks.
Copyright (c) 2018 JURNAL PENDIDIKAN SAINS (JPS)
This work is licensed under a Creative Commons Attribution 4.0 International License.
EXECUTIVE OFFICE
JURNAL PENDIDIKAN SAINS UNIVERSITAS MUHAMMADIYAH SEMARANG
DEPARTMENT OF CHEMISTRY EDUCATION
FACULTY OF MATHEMATICS AND NATURAL SCIENCES
MUHAMMADIYAH SEMARANG UNIVERSITY
Jl. Kedungmundu Raya No.18, Semarang, Jawa Tengah, Indonesia
Telp. (024)76740231, 76740231
email: jps@unimus.ac.id
This work is licensed under a Creative Commons Attribution 4.0 International License
Journal Pendidikan Saisn (JPS)
ISSN:2339-0786, e-ISSN:2502-1443
Published by: Chemistry Education, Muhammadiyah Semarang University