Development of Basic Physics Experimental Props 1 on Fluid Viscosity Material

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Indonesian Journal of E-learning and Multimedia (IJOEM)
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Vol. 1 No. 1 (2022): Indonesian Journal of E-learning and Multimedia (May 2022)
Published: May 14, 2022
Keywords:
Arduino, Experimentation Basic Physics, Fluid Viscosity, Props, Research and Development

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  Yunita Rahmani
Universitas Bengkulu, Bengkulu, Indonesia,
  https://orcid.org/0009-0002-9717-3815

Abstract

This research objectives were to  Describe students' perception of the readability test of arduino-based basic physics experiment props on fluid viscosity material. The method used in this research is the Research and Development (R&D) method with ADDIE development model. Products are made using Arduino Uno and Arduino IDE software with C++ programming language. The data samples used in this study were 42 students of JPMIPA FKIP Unib (Physics Education, Chemical Education, Biology Education and Science Education). The instruments used in this student perception questionnaires. The student perception was interpreted by Likert Scale. Student perception was reviewed from 7 aspects, namely the efficiency aspects of the tool, the association with the lecture material, containing the value of education, tool durability, aesthetics, technical components and tool safety. The results obtained from this study showed that the props developed fall into the category of is the best with an average score of 87%

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Rahmani, Y. (2022). Development of Basic Physics Experimental Props 1 on Fluid Viscosity Material. IJOEM Indonesian Journal of E-Learning and Multimedia, 1(1), 12–18. https://doi.org/10.58723/ijoem.v1i1.4
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References

H. Susanti and C. P. Asmoro, "Reconstruction Of Viscosity Experimental Device Set," vol. 4, no. 1, pp. 31–36, 2019.

L. S. Manurung and H. Sudrajad, "DESIGN AND BUILD UP THE STIRRER VISCOMETER," vol. 6, no. 2, pp. 98–104, 2018.

M. R. Boimau Infianto, Mellu Ruth N.K., "Design Arduino-Based Viskometer Practicum Tool," Wahana Fis.,vol. 5, no. 1, pp. 28–40, 2020.

Karsumi, "Development of Liquid Viscosimeter Practicum Tool," J. Educator. Fis. Indones., vol. 8, no. 1, pp. 8–14, 2012.

N. P. Tissos and Z. Dictionary, "Digital Creation Of Fluid Viscosity Measurement System Using Arduino Uno328-Based Hall Effect Sensor UGN 3503," vol. VI, no. 1, pp. 71–83, 2014.

N. U. P. Y. A. H. Romadhon, “Keefektifan Alat Peraga Viskositas Dengan Sensor Mini Reed Switch Magnetic Berbasis Arduino Untuk Peserta Didik,” J. Muslim Herit., vol. 4, no. 2, pp. 301–316, 2019.

S. Wulandari, “Pengembangan Alat Peraga Fisika Pada Materi Viskositas Sebagai Media Pembelajaran,” J. Pendidik. Fis., vol. 1, no. 1, pp. 1–10, 2013.

Sugiyono, Metode Penelitian Pendidikan (Kuantitatif,Kualitatif, Kombinasi, R&D dan Penelitian Pendidikan). ALFABETA, 2019.

R. M. Branch, Instructional Design: The ADDIE Approach. New York: Springer, 2009.

O. B. mila Sari, E. Risdianto, and S. Sutarno, “Analisis Kebutuhan Pengembangan LKPD Berbasis Poe Berbantuan Augmented Reality untuk Melatihkan Keterampilan Proses Dasar pada Konsep Fluida Statis,” PENDIPA J. Sci. Educ., 2020.