Penelitian ini bertujuan untuk mendeskripsikan pemahaman konsep siswa di Jawa Timur pada topik hidrolisis garam. Penelitian ini melibatkan 97 siswa di Kabupaten Malang bagian timur, 76 siswa di Lamongan dan 74 siswa di Kabupaten Malang bagian selatan. Pengambilan data dilakukan menggunakan instrument four-tier dengan jumlah soal 24. Hasil penelitian menunjukan adanya dinamika terhadap pemahaman konsep siswa pada materi hidrolisis garam. Dari tiga kelompok siswa yang berpartisipasi dalam penelitian ini, siswa yang berasal dari lamongan menunjukan pemahaman konsep yang lebih baik.

Identifikasi pemahaman siswa; Miskonsepsi; Tes Diagnostik; Asam Basa

Amala, F., & Habiddin, H. (2022). Pemahaman Konsep dalam Topik Sifat Asam Basa larutan Garam: Studi pada Siswa SMA di Blitar. Jurnal Zarah, 10(2), 91–100. https://doi.org/10.31629/ZARAH.V10I2.4321

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Ardina, D., & Habiddin, H. (2023). Acid-base properties of salt solution: Study at a secondary school in Banyuwangi. AIP Conference Proceedings, 2569(1), 30018. https://doi.org/10.1063/5.0112074

Erna, M., Anwar, L., & Mazidah, M. (2021). Interactive e-module using Zoom Cloud Meeting platform to reduce misconceptions on salt hydrolysis material. Journal of Education and Learning (EduLearn), 15(2), 283–290. https://doi.org/https://doi.org/10.11591/edulearn.v15i2.18460

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Habiddin, H., Akbar, D. F. K., Husniah, I., & Luna, P. (2022a). Descubriendo la comprensión de los estudiantes: Evidencia para la enseñanza de las propiedades ácido-base de la solución salina. Educación Química, 33(1), 64–76. https://doi.org/10.22201/FQ.18708404E.2022.1.79488

Habiddin, H., Akbar, D. F. K., Husniah, I., & Luna, P. (2022b). Uncovering Students’ Understanding: Evidence For The Teaching of Acid-Base Properties of Salt Solution. Educación Química, 33(1), 64–76. https://doi.org/10.22201/FQ.18708404E.2022.1.79488

Habiddin, H., Ameliana, D. N., & Su’aidy, M. (2020). Development of a Four-Tier Instrument of Acid-Base properties of salt Solution. JCER (Journal of Chemistry Education Research), 4(1), 51–57. https://doi.org/10.26740/jcer.v4n1.p51-57

Habiddin, H., Atikah, A., Husniah, I., Haetami, A., & Maysara, M. (2021). Building scientific explanation: A study of acid-base properties of salt solution. AIP Conference Proceedings, 2330(1), 20047. https://doi.org/10.1063/5.0043215

Habiddin, H., Mulyasari, D. I., Muchson, M., Hasan, H., Luna, P., Akbar, D. F. K., & Mustapa, K. (2021). Are students aware of their scientific conceptions? AIP Conference Proceedings, 2331(1), 40007. https://doi.org/10.1063/5.0041634

Habiddin, H., & Page, E. M. (2019). Development and validation of a four-tier diagnostic instrument for chemical kinetics (FTDICK). Indonesian Journal of Chemistry, 19(3), 720–736. https://doi.org/10.22146/ijc.39218

Hidayah, U. L., Supardi, K. I., & Sumarni, W. (2018). Penggunaan Instrumen Lembar Wawancara Pendukung Tes Diagnostik Pendeteksi Miskonsepsi Untuk Analisis Pemahaman Konsep Buffer-Hidrolisis. Jurnal Inovasi Pendidikan Kimia, 12(1), 2075–2085.

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Husniah, I., Habiddin, H., Sua’idy, M., & Nuryono, N. (2019). Validating an instrument to investigate students’ conception of Salt hydrolysis. Journal of Disruptive Learning Innovation (JODLI), 1(1), 1–6.

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Jin, H., & Wong, K. Y. (2015). Mapping conceptual understanding of algebraic concepts: an exploratory investigation involving grade 8 Chinese students. International Journal of Science and Mathematics Education, 13(3), 683–703. https://doi.org/10.1007/s10763-013-9500-2

Laliyo, L. A. R., La Kilo, A., Paputungan, M., Kunusa, W. R., Dama, L., & Panigoro, C. (2022). Rasch modelling to evaluate reasoning difficulties, changes of responses, and item misconception pattern of hydrolysis. Journal of Baltic Science Education, 21(5), 817–835. https://doi.org/https://doi.org/10.33225/jbse/22.21.817

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Putri, A. K., Afandy, D., & Su’aidy, M. (2016). Pengaruh Penerapan Strategi Pembelajaran Praktikum Menggunakan Diagram Ve Terhadap Hasil Belajar Siswa Pada Materi Hidrolisis Garam. J-PEK (Jurnal Pembelajaran Kimia), 1(2), 15–18.

Romine, W. L., Todd, A. N., & Clark, T. B. (2016). How Do Undergraduate Students Conceptualize Acid–Base Chemistry? Measurement of a Concept Progression. Science Education, 100(6), 1150–1183. https://doi.org/10.1002/sce.21240

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Yakubi, M., Hanum, L., & Zulfadli. (2017). Menganalisis Tingkat Pemahaman Siswa pada Materi Ikatan Kimia Menggunakan Instrumen Penilaian Four-Tier Multiple Choice ( Studi Kasus pada Siswa Kelas X SMA Negeri 4 Banda Aceh ). Jurnal Ilmiah Mahasiswa Pendidikan Kimia, 2(1), 19–26.

Yaman, F., & Ayas, A. (2015). Assessing changes in high school students’ conceptual understanding through concept maps before and after the computer-based predict–observe–explain (CB-POE) tasks on acid–base chemistry at the secondary level. Chemistry Education Research and Practice, 16(4), 843–855. https://doi.org/10.1039/C5RP00088B