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Bariromah
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Mathematics

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Batik Motif From The Movement Of Dynamics Harmoic Waves Sugiyanto; Bariromah; Awliya Amali Tazkiya; Ratna Sinta Dewi; Musyarofah Nurul Maisaroh
Jurnal Ilmiah Matematika Vol. 10 No. 1 (2023)
Publisher : Universitas Ahmad Dahlan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26555/jim.v10i1.30868

Abstract

This batik motif is inspired by the movement of waves in the context of dynamic harmony. Through mathematical and philosophical analysis, wave motion is explored as a symbol of life that constantly changes yet remains harmonious. The methods used include studies on wave displacement, wave partitioning, and the dynamics of waves on a string fixed at one end. Each phase of wave movement is interpreted from the perspective of culture and life values, inviting the viewer to understand the beauty in change and appreciate diversity. Through this motif, the creator wishes to convey that beauty can be found in the dynamic fluctuations of life, inspiring one to face challenges with balance.
Batik Motifs From Mathematical Model Of Earthquake Waves And Kartini Reactor Sugiyanto; Bariromah; M. Aly Akbar Hakim; Hamas Abdillah; Wida Yaska Andika Yusuf
Jurnal Ilmiah Matematika Vol. 10 No. 2 (2023)
Publisher : Universitas Ahmad Dahlan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.26555/jim.v10i2.30876

Abstract

The batik motif from the mathematical model of earthquake waves and the Kartini Reactor is an innovation in the world of batik that combines elements of art and science. Earthquake waves are complex physical phenomena that occur as a result of the release of energy from earthquake sources that propagate through the layers of the earth in seismic form. The mathematical modeling used to understand the dynamics of wave propagation is partial differential equations and numerical simulation methods. In addition, this research highlights the role of Raktor Kartini, a nuclear reactor located in Yogyakarta, for the development of science and technology in Indonesia. In this research, the earthquake wave propagation pattern and the dynamics of the Kartini Reactor are translated into batik motifs, creating a visual representation of scientific concepts. This approach not only enriches the cultural heritage of batik, but also introduces science to the public. The philosophy of this motif emphasizes the balance between resilience and flexibility, reflecting how technological systems must adapt to dynamic environmental conditions.
Co-Authors Awliya Amali Tazkiya Hamas Abdillah M. Aly Akbar Hakim Musyarofah Nurul Maisaroh Ratna Sinta Dewi SUGIYANTO Wida Yaska Andika Yusuf