Lembar Kerja Peserta Didik (LKPD) Berwawasan Green Chemistry Untuk Meningkatkan Kemampuan Literasi Sains Pada Materi Asam Basa

Amalia Ulandari(1), Mitarlis Mitarlis(2),


(1) Universitas Negeri Surabaya
(2) 

Abstract

Science literacy and green chemistry is very needed in learning chemistry. The learning process uses student worksheet to increase scientific literacy ability and the application of green chemistry. The study aims to describe the feasibility of student worksheet with green chemistry insight to increase scientific literacy ability on the matter of acid base. The principles of green chemistry in this student worksheets were limited 3 principles. number 1 is preventing waste. number 5 is using safe solvent. and number 12 is minimizing the occurrencence of accidents. Research method was referred to the stage of 4-D development model (define, design, develop, and desseminate). This study is limited to the stage of development and limited test was conducted to 12 students in a state Senior High School. Analysis of the data uses quantitative descriptive methods. Feasibility in terms of validity, practicality, and effectiveness. Worksheet is stated to be valid, practical, and effective if the percentage results are obtained ≥ 61%. The result showed that the feasibility of student worksheets is reviewed from content validity a percentage of 91.67% and construct validity a percentage of 94.26% with very valid criteria. The practicality of student worksheets is reviewed from observation of student activities a percentage of 95% with very good interpretations and response of student a percentage of 95.09% with very practical interpretations. The effectiveness of the student worksheets reviewed from pretest and posttest of scientific literacy with N-gain score of 0.88 high category.

Keywords

acid base; green chemistry; student worksheet; science literacy

Full Text:

PDF

References

Azizah, U., 2017, Pengembangan Buku Petunjuk Praktikum Bernuansa Green Chemistry pada Materi Asam Basa, Larutan Penyangga, dan Hidrolisis Garam Kelas XI IPA di SMA Institut Indonesia Semarang, Skripsi, Semarang: Universitas Islam Negeri

Walisongo.

BSNP, 2006, Standar Isi Untuk Satuan

Pendidikan Dasar dan Menengah, Jakarta: Badan Standar Nasional Pendidikan.

BSNP, 2014, Instrumen Penilaian Buku Teks Pelajaran Tahun 2014, Jakarta: Badan Standar Nasional Pendidikan.

Dahar, R. W., 2011, Teori-teori Belajar dan Pembelajaran, Jakarta: Erlangga.

Depdiknas, 2008, Panduan Pengembangan Bahan Ajar, Jakarta: Depdiknas.

Fauziah, N., Andayani, Y., dan Hakim, A., 2019, Meningkatkan Literasi Sains Peserta Didik melalui Pembelajaran Berbasis Masalah Berorientasi Green Chemistry pada Materi Laju Reaksi, Jurnal Pijar MIPA, Vol 14, No 2, Hal 31-35.

Hake, R. R., 1998, Interactive Engagement Versus Traditional Methods: A Six Thousand Student Survey of Mechanics Test Data for Introductory Physics Courses, American Journal Physics, Vol 66, No 1, Hal 64-74.

Ibrahim dan Wahyusukartingsih, 2014, Model Pembelajaran Inovatif Melalui Pemaknaan, Surabaya: Unesa University Press.

Kemendikbud, 2018, Permendikbud No.37 Tahun 2018 Tentang Kompetensi Inti dan Kompetensi Dasar, Jakarta: Mendikbud.

Kurniaman, O., dan Noviana, E., 2017, Penerapan Kurikulum 2013 dalam

Meningkatkan Keterampilan, Sikap, dan Pengetahuan, Jurnal Primary Program Studi Pendidikan Guru Sekolah Dasar Fakultas Keguruan dan Ilmu Pendidikan Universitas Riau, Vol 6. No 2, Hal 389-396.

Macharia, S., 2018, Who Is to Blame the Teacher or Text Book? Implications for the 21st Century Reading Skills, International Journal of Education and Research, Vol 6, No 3, Hal 1-10.

Manahan, 2006, Chemistry, green chemistry, and environmental chemistry. From green chemistryand the Ten Commandments of Sustainability, Chemchar Research, Inc., 2006

Mitarlis, Ibnu, S., Rahayu, S., dan Sutrisno., 2017, “Enviromental Literacy with Green Chemistry Oriented in 21st Century Learning,†AIP Conference Proceedings1991, Vol. 020020: Hal 1-6.

Nurhidayati, E., 2017, Pedagogi Konstruktivisme dalam Praksis Pendidikan Indonesia, Indonesian Journal of Educational Conseling, Vol 1, No 1, Hal 1-14.

Nurisa, I., dan Sulistyo, I., 2019, Measuring Student Chemistry Literacy Ability of Acid and Base Concepts, International Journal of Advanced Research, Vol 5, Hal 850-856.

OECD, 2016, Result in Focus PISA 2015: Draft Science Framework, Paris: OECD Publishing.

OECD, 2019, Result in Focus PISA 2018: Draft Science Framework, Paris: OECD Publishing.

Plomp, T. dan Nieveen, N., 2010, An Introducing to Educational Design Research. Enschede, The Netherlands: Netherlands Institute for Curriculum Development.

Rakhmawan, A., Setiabudi, A., dan Mudzakir, A., 2016, Perancangan Pembelajaran Ajaran Literasi Sains Berbasis Inkuiri pada Kegiatan Laboratorium, Jurnal Penelitian dan Pembelajaran IPA, Vol 1, No 1, Hal 143-152.

Riduwan, 2016, Skala Pengukuran Varibel Variabel Penelitian, Bandung: Alfabet.

Slavin, R. E., 2011, Psikologi Pendidikan, Jakarta: PT Indeks.

Solomon, U., Felik, O., dan Deke, N., 2020, Scientific and Technological Literacy for Suistainable Development in Nigeria, International Journal of Education, Vol 8, No 7, Hal 33-42.

Toharudin, U., Sri, H., dan Andrian, R., 2011. Membangun Literasi Sains Peserta Didik, Bandung: Humaniora.

Utami, D., Yuli, R., dan Riskiono, S., 2017, Penggunaan Conceptual Change Text dengan Model Pembelajaran 5E Untuk Mengatasi Miskonsepsi Siswa Pada Materi Asam Basa di SMAN 4 Tambun Selatan, Jurnal Riset Pendidikan Kimia, Vol 1. No 1, Hal 30-37.

Refbacks

  • There are currently no refbacks.




Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.