The research objective was to improve the understanding and creative thinking skills of elementary teacher as prospective teachers in following science courses. The research design used is to make elementary teacher groups into small groups. During the learning process, observations about elementary teacher cooperation during learning with multimedia media were carried out to assess their understanding and creative thinking skills. The results of the observations of each cycle were evaluated as material for reflection in the next cycle to improve college student understanding and creative thinking skills in accordance with predetermined targets. Data analysis was carried out by descriptive quantitative. From the results of the T-test, the results, it was found that there were significant differences. This means that understanding of science process concepts and skills increases after prospective student teachers experience the learning process using multimedia. From the results of the average value of understanding the concept, increasing from 39.86%  to 88.22%. and science process skills increased the average value from 49.89% to 86.44%. 92% of college student gave a positive response, namely agreeing and strongly agreeing that the science lecture process using multimedia learning media can improve science process skills and understanding of material in science subjects for elementary teacher education college student. Keywords: multimedia; comprehension ability; creative thinking skills.

Greenstein, L. Assessing 21 8| JPSI Vol. 8, No. 1, hlm. 1-9, 2020.

Beetlestone, F. Creative Learning. Terjemahan Yusron, N. Bandung: Nusa Media. 2013.

Gunawan, G., Harjono, A., Sahidu H., & Nisrina, N. Improving students creativity using cooperative learning with virtual media on static fluida concept. J. Physics: Conf. Ser., 1006(1):2018

Yustiqvar, M., Hadisaputra, S., & Gunawan, G. Analisis penguasaan konsep siswa yang belajar kimia menggunakan multimedia interaktif berbasis green chemistry. Jurnal Pijar MIPA, 14(2):135-140. 2019.

Turkmen, H. Creative thinking skills analyzes of vocational high school students. Journal Of Educational And Instructional Studes In The World, 5(1):74-84. 2015.

Y. Suchyadi, N. Safitri, and O. Sunardi, The Use Of Multimedia As An Effort To Improve Elementary Teacher Education Study Program College Students Comprehension Ability And Creative Thinking Skills In Following Science Study Courses,†JHSS (Journal Humanit. Soc. Stud., vol. 04, no. 02, pp. 201205, 2020.

Sudargo, F. Metapedagogi dalam Pendidikan Guru Biologi: Membangun Kemampuan Berpikir Kritis dan Kreatif melalui Pembelajaran Berbasis Praktikum, Makalahdisajikan dalam Pengukuhan Guru Besar Universitas Pendidikan Indonesia, Bandung, 2012.

Sukarno, Permanasari, A., Hamidah, I., & Widodo, A. The analysis of science teacher barriers in implementing of science process skills (SPS) teaching approach at Junior High School and its solutions. Journal of Education and Practice, 4(27):185-190. 2013.

S. Setyaningsih and Y. Suchyadi, Implementation of Principal Academic Supervision To Improve Teacher Performance in North Bogor,†Jhss (Journal Humanit. Soc. Stud., vol. 5, no. 2, pp. 179183, 2021, doi: 10.33751/jhss.v5i2.3909.

Y. Suchyadi and N. Karmila, The Application Of Assignment Learning Group Methods Through Micro Scale Practicum To Improve Elementary School Teacher Study Program College Students Skills And Interests In Following Science Study Courses,†JHSS (Journal Humanit. Soc. Stud., vol. 03, no. 02, pp. 9598, 2019, doi: 10.33751/jhss.v3i2.1466.

S. Hardinata, Y. Suchyadi, and D. Wulandari, Strengthening Technological Literacy In Junior High School Teachers In The Industrial Revolution Era 4.0,†J. Humanit. Soc. Stud., vol. 05, no. 03, pp. 330335, 2021.

Skamp, K. Teaching Primary Science Constructively (C. MacKenzie, Ed.). Victoria: Harcourt Australia Pty Ltd. 2018.

etpichainarong, W., Panijpan, B., & Ruenwongsa. Enhanced learning of biotechnology students by an inquiry-based cellulase laboratory. International Journal of Environmental and Science Education, 5(2):169-187. 2010.

Akinbobola, A.O. & Afalobi, F. Constructivist practices through guided discovery approach: The effect on student cognitive achievement in Negerian Senior Secondary School Physics. Eurasian Journal of Physics and Chemistry Education, 2(1):16-25. 2010.

Andrini, V.S. The effectiveness of inquiry learning method to enhance studentslearning outcome: A theoritical and empirical review. Journal of Education and Practice, 7(3):38-42. 2016.

Rahayu, S. Mengembangkan Literasi Sains Anak Indonesia Melalui Pembelajaran Berorientasi Nature of Science (NOS). Makalah disajikan dalam Pidato Pengukuhan Jabatan Guru Besar Universitas Negeri Malang, Malang, 2016.

Samatoa, U. Pembelajaran Ipa Di Sekolah Dasar. Jakarta Barat: Indeks. 2016.

H. S. Marwah, Y. Suchyadi, and T. Mahajani, Pengaruh Model Problem Based Learning Terhadap Hasil Belajar Subtema Manusia Dan Benda Di Lingkungannya,†J. Soc. Stud. Arts Humanit., vol. 1, no. 01, pp. 4245, 2021, doi: 10.33751/jssah.v1i01.3977.

Kumala, F. N. Pembelajaran Ipa Sekolah Dasr. Malang: Ediide Infografika. 2016.

S. Setyaningsih and Y. Suchyadi, Classroom Management In Improving School Learning Processes In The Cluster 2 Teacher Working Group In North Bogor City,†Jhss (Journal Humanit. Soc. Stud., vol. 05, no. 01, pp. 99104, 2021.

Septikasari, R., & Frasandy, R. N. Keterampilan 4c Abad 21 Dalam Pembelajaran Pendidikan Dasar. Jurnal Tarbiyah Al-Awlad, 7(2), 112122. 2018

Monica, R., Ricky, Z., & Estuhono. Pengembangan Modul Ipa Berbasis Model Research Based Learning Pada Keterampilan 4c Siswa Sekolah Dasar. Edukatif : Jurnal Ilmu Pendidikan, 3(6), 2021. 44704482. Https://Doi.Org/Https://Doi.Org/10.31004/Edukatif.V3i6.1470

Pramono, A., Pujiyanto, Puspasari, B. D., & Dhanti, N. S. Character Thematic Education Game Ak@R†Of Society Themes For Children With Malang-Indonesian Visualize. International Journal Of Instruction, 14(2), 179196. 2021.

Yulyani, Kazumaretha, T., Arisanti, Y., Fitria, Y., & Desyandri. Implementasi Kompetensi Pedagogik Guru Dalam Pembelajaran Tematik Di Sekolah Dasar. School Education Journal, 10(2), 184188. 2020.

R. Purnamasari et al., Student Center Based Class Management Assistance Through The Implementation Of Digital Learning Models,†J. Community Engagem., vol. 02, no. 02, pp. 4144, 2020, doi: https://doi.org/10.33751/jce.v2i2.2801.

Y. Suchyadi and H. Suharyati, The Use Of Multimedia As An Effort To Improve The Understanding Ability Of Basic School Teachers ‘Creative Thinking In The Era ‘Freedom Of Learning,†in Merdeka Belajar, A. Rahmat, Ed. Yogyakarta: Zahir Publishing, 2021, pp. 4253.

Sutarno. Pengunaan Multimedia Interaktif Pada Pembelajaran Medan Magnet Untuk Meningkatkan Keterampilan Berpikir Generic Sains Mahasiswa. Jurnal Exacta. Vol IX (1), 6066. 2011

Y. Suchyadi et al., Using a Multimedia as an Effort to Improve Creative Thinking Skills of Elementary Teacher Education College Student,†in 11th Annual International Conference on Industrial Engineering and Operations Management. IEOM Society International, 2021, pp. 29482954. [Online]. Available: http://www.ieomsociety.org/singapore2021/papers/535.pdf

Hasrul. Langkah-Langkah Pengembangan Pembelajaran Multimedia Interaktif. Jurnal MEDTEK. Vol 2 (1). 2010.

H. Suharyati, H. Laihad, and Y. Suchyadi, Development of Teacher Creativity Models to Improve Teachers Pedagogic Competency in the Educational Era 4.0,†Int. J. Innov. Creat. Chang. www.ijicc.net, vol. 5, no. 6, pp. 919929, 2019, [Online]. Available: www.ijicc.net

F. . King, L. Goodson, and F. Rohani, Higher Order Thinking Skills: Definition, Teaching Strategies, and Assesment. London: A publication of the Educational Services Program, 2006.

S. Hussain, R. Ali, M. I. Majoka, and M. Ramzan, Effect of Inquiry Method on Achievement of Students in Chemistry at Secondary Level,†Int. J. Acad. Res., vol. 3, no. 1, pp. 955959, 2011.

J. Mohler L, Using interactive multimedia technologies to improve student understadning of spartially-dependent engineering concepts,†GraphiCon2001, no. 1987, pp. 292300, 2001.

U. Zoller and D. Pushkin, Matching Higher-Order Cognitive Skills (HOGS) promotion goals with problem-based laboratory practice in a freshman organic chemistry course,†Chem. Educ. Res. Pract., vol. 8, no. 2, pp. 153171, 2007.

A. . Carind and R. B. Sund, Teaching Science through Discovery. Ohio: Meril Publishing Company, 2018