This research aims to develop interactive multimedia that can minimize students' misunderstanding of atomic model materials. Media developed using Macromedia Flash which contains animations about atomic models. Feasibility is reviewed from three aspects, namely (1) validity which contains the validity of content and construct, (2) practicality which is reviewed based on the results of student observations and response questionnaires, (3) effectiveness reviewed based on pretest – posttest results which will later show a shift in student conception from initially not understanding the concept (TPK) to understanding the concept (PK). This research uses the 4D Research and Development (R&D) method with 15 research subjects in class XI Science at SMA Negeri 1 Driyorejo. The results of the research obtained show that interactive multimedia is suitable to be used as a medium in learning and minimizes the occurrence of misconceptions in atomic model material. This is evidenced based on the results obtained during the study, namely (1) the average validation obtained mode 5 so that it was categorized as very good / valid, (2) the average percentage of student response questionnaires obtained a score of 94% so that it was categorized as very practical, in observation a score of 98% was obtained so that it was categorized as very practical, (3) and the average percentage of student conception shift from not understanding the concept (TPK) to understanding the concept (PK) obtained a score of 87.23% so that it was included in the category is very effective.

A’yun, Q., & Nuswowati, D. M. (2018). Analisis Miskonsepsi Siswa Menggunakan Tes Diagnostic Multiple Choice Berbantuan Cri (Certainty of Response Index). Jurnal Inovasi Pendidikan Kimia, 12(1), 2108–2117.

Akram, T. M., Ijaz, A., & Ikram, H. (2017). Exploring the Factors Responsible for Declining Students’ Interest in Chemistry. International Journal of Information and Education Technology, 7(2), 88–94. https://doi.org/10.18178/ijiet.2017.7.2.847

Aprilia, N. L., Lutfi, A., & Surabaya, U. N. (2023). Ethnoscience-Based Interactive Multimedia to Improve Scientific Literacy in Chemical Equilibrium Materials. 11(3).

Aprilyani, F., Masriani, M., & Hadi, L. (2021). Pengembangan Media Pembelajaran Pop-Up Book pada Materi Struktur Atom. AR-RAZI Jurnal Ilmiah, 9(1), 31–38. https://doi.org/10.29406/ar-r.v9i1.2513

Artini & Wijaya. (2020). Strategi Pengembangan Literasi Kimia Bagi Siswa SMP. Jurnal Ilmiah Pendidikan Citra Bakti, 7(2), 100–108.

Ayu Rahmi, Henny Fitriani, & Nurul Muna. (2021). Pengaruh Model Pembelajaran Cooperative Script dengan Media Kartu Gambar Terhadap Minat dan Hasil Belajar Siswa pada Materi Perkembangan Model Atom. KATALIS: Jurnal Penelitian Kimia Dan Pendidikan Kimia, 4(1), 33–38. https://doi.org/10.33059/katalis.v4i1.3738

Dwi L.W , I Nyoman S.D, A. C. (2019). Developing Interactive Multimedia Model 4D for Teaching Natural Science Subject. International Journal of Education and Research, 7, 1.

Fahmi, T. N., & Fikroh, R. A. (2022). Pengembangan Modul Bermuatan Multirepresentasi pada Materi Hidrokarbon untuk SMA/MA. Jurnal Inovasi Pendidikan Kimia, 16(1), 53–58. https://doi.org/10.15294/jipk.v16i1.30116

Fakhri, M. I., Bektiarso, S., & Supeno. (2018). Penggunaan Media Pembelajaran Animasi Berbantuan Macromedia Flash Pada Pembelajaran Fisika Pokok Bahasan Momentum , Impuls , Dan Tumbukan Kelas X Sma. Jurnal Pembelajaran Fisika, 7(3), 271–277. https://jurnal.unej.ac.id/index.php/JPF/article/view/8599

Handayani, H. Y. (2018). View of PENGEMBANGAN MEDIA PEMBELAJARAN BERBASIS MACROMEDIA FLASH.pdf. Jurnal Pemikiran Dan Penelitian Pendidikan, 16(2).

Hemayanti, K. L., Muderawan, I. W., & Selamat, I. N. (2020). Analisis Minat Belajar Siswa Kelas Xi Mia Pada Mata Pelajaran Kimia. Jurnal Pendidikan Kimia Indonesia, 4(1), 20. https://doi.org/10.23887/jpk.v4i1.24060

Lathifah, N.S , Agus S, dan S. (2023). Meningkatkan Hasil Belajar Peserta Didik dengan Model Discovery Learning pada Materi Ikatan Kimia. 11(June).

Lestari, I. (2021). Identifikasi Pemahaman Mahasiswa Pendidikan Kimia pada Materi Stereokimia Hidrokarbon. Edukatif : Jurnal Ilmu Pendidikan, 3(6), 4810–4817. https://doi.org/10.31004/edukatif.v3i6.1555

Lutfi, A. (2021). Research and Development (R&D) : Implikasi dalam Pendidikan Kimia. Jurusan Kimia FMIPA, UNESA.

Mellyzar, M., Fakhrah, F., & Isnani, I. (2022). Analisis Miskonsepsi Siswa SMA: Menggunakan Instrumen Three Tier Multiple Choice pada Materi Struktur Atom dengan Teknik Certanty of Response Index (CRI). Edukatif : Jurnal Ilmu Pendidikan, 4(2), 2556–2564. https://doi.org/10.31004/edukatif.v4i2.2438

Prayunisa, F. (2022). Analisa Kesulitan Siswa Kelas XI dalam Pembelajaran Kimia di SMAN 1 Masbagik. Journal of Classroom Action Research, 4(3), 196–200.

Putri, A., Kuswandi, D., & Susilaningsih, S. (2020). Pengembangan Video Edukasi Kartun Animasi Materi Siklus Air untuk Memfasilitasi Siswa Sekolah Dasar. JKTP: Jurnal Kajian Teknologi Pendidikan, 3(4), 377–387. https://doi.org/10.17977/um038v3i42020p377

Riduwan. (2018). Dasar-dasar Statistika. Alfabeta.

Sheftyawan, W. B., Prihandono, T., & Lesmono, A. D. (2018). Identifikasi Miskonsepsi Siswa Menggunakan Four-tier Diagnostic Test pada Materi Optik Geometri. Jurnal Pembelajaran Fisika, 7(2), 147–153. https://jurnal.unej.ac.id/index.php/JPF/article/download/7921/5577

Sukmawati, W. (2019). Analisis Level Makroskopis , Mikroskopis dan Simbolik Mahasiswa dalam Memahami Elektrokimia Analysis of Macroscopic , Microscopic and Symbolic Levels of Students in Understanding Electrochemistry. Jurnal Inovasi Pendidikan IPA, 5(2), 195–204.

Sumarni, S. (2019). Model penelitian dan pengembangan (RnD) lima tahap (MANTAP). Jurnal Penelitian Dan Pengembangan, 1(1), 1–33.

Thiagarajan, S., Semmel, D.S. & Semmel, M. . (1974). Instructional Development for Training Teacher of Exceptional Children (a Sourcebook). Indiana University.

Widiyatmoko, A., & Shimizu, K. (2018). The development of two-tier multiple choice test to assess students’ conceptual understanding about light and optical instruments. Jurnal Pendidikan IPA Indonesia, 7(4), 491–501. https://doi.org/10.15294/jpii.v7i4.16591