Development of Three-Tier Test Instrument Based on Scientific Literacy in Electrolyte and Non-Electrolyte Solution Topics

Aulia Mirta Dewi, Sri Haryani

Abstract


The scientific literacy is very important for students as a provision to face the challenges of the 21st century. The scientific literacy of students in Indonesia is low. One of the factors which causes students' scientific literacy tend to be low is that students have not been trained in answering questions with typical as on PISA. Efforts to train students to be familiar with scientific literacy include developing test instruments based on scientific literacy. This study aims to examine the feasibility and characteristics of the scientific literacy test instrument for electrolyte and non-electrolyte solutions; besides, examine the profile of students' scientific literacy abilities. The type of this study was Research & Development with a 4D model which includes the stages: define, design, develop, and disseminate. The research subjects were students of class X Science SMAN 1 Sragen. The results of the study show that (1) the scientific literacy test instrument which is developed is feasible and valid to be used with a validity of 34 of 35 questions which is declared valid and reliability of 0.86; (2) the characteristics of the test instrument is that using three aspects of scientific literacy in one question at once and can be used to determine the student's scientific literacy profile well; (3) the profile of students' scientific literacy skills is in a fairly good criterion with a percentage of 59%. The profile of students' scientific literacy abilities from the aspect of scientific competence is obtained as much as 57.21%; 59.72%; and 60.46%.


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Arikunto, S. (2013). Dasar - Dasar Evaluasi Pendidikan. Jakarta : Bumi Aksara

Arikunto, S. (2015). Dasar - Dasar Evaluasi Pendidikan. Jakarta : Bumi Aksara

BSNP. (2010). Paradigma Pendidikan Nasional Abad XXI. [Online]. Tersedia:http://www.bsnpindonesia.org/id/wp-content/uploads/2012/04/LaporanBSNP-2010.pdf diakses pada tanggal 18 April 2021.

Cigdemoglu, C., & Geban, O. (2015). Improving Students’ Chemical Literacy Levels On Thermochemical And Thermodynamics Concepts Through a Context-Based Approach . Chemistry Education Research And Practice, 16(2), 302-317

Depdiknas. (2007). Tes Diagnostik Dirjen Manajemen Pendidikan Dasar dan MenengahDirektorat Pembinaan Sekolah Menengah Pertama. Jakarta: Dirjen Disdakmen Depdiknas.

Fatmawati, F., & Setiawati, D. (2018). Pengembangan Kompetensi Guru Sejarah dalam Menghadapi Tantangan Abad 21. Jurnal Mitra Pendidikan ( Jmp Online ). 2(11), 1259–1270

Fuadi, H., Robbia, A. Z., & Jamaluddin, J., & Jufri, A. W. (2020). Analisis Faktor Penyebab Rendahnya Kemampuan Literasi Sains Peserta Didik. Jurnal Ilmiah Profesi Pendidikan, 5(2), 108–116.

Habibati, H., Nazar, M., & Septiani, P. D. (2019). Pengembangan Handout Berbasis Literasi Sains Pada Materi Larutan Elektrolit Dan Non Elektrolit. Jurnal IPA & Pembelajaran IPA, 3(01), 36–41.

Haryani, S., Prasetya, A. T., & Bahron, H. (2017). Building The Character Of Pre-Service Teachers Through The Learning Model Of Problem-Based Analytical Chemistry Lab Work. Jurnal Pendidikan IPA Indonesia, 6(2), 229–236.

Laksono, P. J. (2018). Studi Kemampuan Literasi Kimia Mahasiswa Pendidikan Kimia Pada Materi Pengelolaan Limbah. Jurnal Pendidikan Kimia, 2(1)–12.

Monita, F. A., & Suharto, B. (2016). Identifikasi dan Analisis Miskonsepsi Siswa Menggunakan Three Tier Multiple Choice Diagnostic Instrument Pada Konsep Kesetimbangan Kimia. Jurnal Inovasi Pendidikan Sains, 7(1) 27-38.

OECD. (2017). Pisa 2015 Assessment and Analytical Framework: Science, Reading, Mathematic, and Financial Literacy. Paris: OECD Publishing.

OECD. (2019). Pisa 2018 Assessment and Analytical Framework: Science, Reading, Mathematic, and Financial Literacy. Paris: OECD Publishing.

Permanasari, A., Rubini, B., & Nugroho, O. F. (2021). Stem Education In Indonesia : Science Teachers ’ And Students ’ Perspectives. Journal of Innovation in Education and Cultural Research. 2(1), 7–16.

Pertiwi, U. D., Atanti, R. D., & Ismawati, R. (2018). Pentingnya Literasi Sains Pada Pembelajaran IPA SMP Abad 21. Indonesian Journal Of Natural Science Education (Ijnse). 1(1), 24–29.

Putri, R., Sari, R., Jumadi., & Ariswan. (2020). Pengembangan dan Validasi Instrumen Tes Untuk Mengukur Keterampilan Menyelesaikan Masalah Peserta Didik SMA Pada Pelajaran Fisika. Jurnal Penelitian Pembelajaran Fisika, 11(1), 17–25.

Rusilowati, A., Kurniawati, L., Nugroho, S. E., & Widiyatmoko, A. (2016). Developing An Instrument Of Scientific Literacy Asessment On The Cycle Theme. International Journal of Environmental and Science Education, 11(12), 5718–5727.

Rusilowati, A., Nugroho, S. E., Susilowati, E. S. M., Mustika, T., Harfiyani, N., & Prabowo, H. T. (2018). The Development Of Scientific Literacy Assessment To Measure Student ’ S Scientific Literacy Skills In Energy Theme. Journal of Physics: Conference Series, 983(1), 012046.

Safitri, Y., & Mayasari, T. (2018). Analisis Tingkat Kemampuan Awal Siswa SMP / MTS dalam Berliterasi Sains Pada Konsep IPA. In Quantum: Seminar Nasional Fisika dan Pendidikan Fisika (pp. 165–170).

Salamah, P. N., Rusilowati, A., & Sarwi, S. (2017). Pengembangan Alat Evaluasi Materi Tata Surya Untuk Mengukur Kemampuan Literasi Sains Peserta Didik SMP. UNNES Physics Education Journal, 6(3), 7-16.

Sanjaya, R. W. K., Maridi, M., & Suciati, S. (2017). Pengembangan Modul Berbasis Bounded Inquiry Lab Untuk Meningkatkan Literasi Sains Dimensi Konten Pada Materi Sistem Pencernaan Kelas XI. Didaktika Biolgi: Jurnal Penelitian Pendidikan Biologi, 1(1).19–32.

Sari, D. A., Ellizar, E., & Azhar, M. (2019). Development Of Problem-Based Learning Module On Electrolyte And Nonelectrolyte Solution To Improve Critical Thinking Ability Development Of Problem-Based Learning Module On Electrolyte And Nonelectrolyte Solution To Improve Critical Thinking Ability. Journal of Physics, 1185(1), 1-9.

Setiyoningtyas, R., & Kasmui. (2020). Pengembangan Quizizz-Assisted Test Berbasis Literasi Sains Pada Materi Larutan Elektrolit dan None lektrolit. Chemistry In Education, 9(2), 63-69.

Sinaga, T. N. (2015). Pengembangan Soal Model Pisa Mata Pelajaran Ilmu Pengetahuan Alam Terpadu Konten Fisika untuk Mengetahui Penalaran Siswa Kelas IX. Jurnal Inovasi dan Pembelajaran Fisika, 2(2), 194–197.

Sudijono, A. 2012. Pengantar Evaluasi Pendidikan. Bandung: Alfa Beta.

Syaputra, A. (2016). Analisis Perkembangan Aspek Keterampilan Proses Sains Kimia Siswa Melalui Pembajaran Berbasis Literasi Sains dan Teknologi di SMA Muhammadiyah 11 Padangsidimpuan. Jurnal Eksakta, 2(1), 49-53.

Sudijono, Anas. 2012. Pengantar Evaluasi Pendidikan. Bandung: Alfa Beta

Thiagarajan, S., Semmel, D. S., & Semmel, M. I. (1974). Instructional Development For Training Teachers Of Exceptional Children: A Sourcebook. Indiana : Indiana Univ Bloomington.

Thummathong, R., & Thathong, K. (2016). Construction Of A Chemical Literacy Test For Engineering Students. Journal of Turkish Science Education, 13(3), 185-198

Toharudin, Uus, Hendrawati, Sri, dan Handrian Rustaman. 2011. Membangun Literasi Sains Peserta Didik. Bandung : Humaniora.

Wahidah, N., Saptono, S., & Wijayanto, W. (2019). The Development Of Three Tier Multiple Choice Test To Explore Junior High School Students’ Scientific Literacy Misconceptions. Journal Of Innovative Science Education , 8(2), 190–198.

Wijayanto, P. A., Allifah, A., & Amirrudin, A. (2016). Evaluasi Kualitas Instrumen Tes dalam Pembelajaran Geografi di MAN 2 Kota Batu. Jurnal Geografi: Media INformasi Pengembangan dan Profesi Kegeografian, 13(2), 101–113.

Wulandari, N., & Sholihin, H. (2016). Analisis Kemampuan Literasi Sains pada Aspek Pengetahuan dan Kompetensi Sains Siswa pada Materi Kalor. EDUSAINS, 8(1), 66–73.

Yusup, F. (2018). Uji Validitas Dan Reliabilitas Instrumen Penelitian Kuantitatif. Jurnal Tarbiyah, 7(1), 17–23.




DOI: http://dx.doi.org/10.21043/thabiea.v5i1.11634

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