Published December 25, 2024
| Version v2
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CREATING A MODEL OF THE FALL OF SOLAR ENERGY IN CERTAIN COORDINATES
Creators
- 1. Researcher in the field of atomic nucleus and elementary particle physics, Director of the Scientific Research Institute "Physics of Resonant Nuclear Reactions" Presidium, Scientific Research Institute of Physics of Resonant Nuclear Reactions Margilan, Republic of Uzbekistan 151100, Republic of Uzbekistan, Fergana region, Margilan, Tinchlik str., 195/37
- 2. Candidate of Pedagogical Sciences, Professor Department of Economics and Vocational Education, Faculty of Telecommunications Engineering and Vocational Education Ferghana, Republic of Uzbekistan 150118, Republic of Uzbekistan, Ferghana region, Ferghana city, Tadbirkorlar str., 162
Description
In the course of this study, a mathematical model of solar activity was created at the specified coordinates for a certain time, with the development of an appropriate algorithm of action. In the course of the study, a function was created with respect to a spherical coordinate system based on an approximate model of the planet and its irradiation system. Subsequently, empirically obtained boundary conditions were set for the function, so that a certain general form was turned into a particular form in the class of linear functions.
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References
- Cooley, J.A., Sami, M. Cool pigments as an urban heat island mitigation strategy for population health. Nat Rev Mater 9, 601–602 (2024). https://doi.org/10.1038/s41578-024-00707-9
- Pacchioni, G. Boosting the performance of plastic thermoelectrics. Nat Rev Mater 9, 604 (2024). https://doi.org/10.1038/s41578-024-00716-8
- Padovani, A., La Torraca, P., Strand, J. et al. Dielectric breakdown of oxide films in electronic devices. Nat Rev Mater 9, 607–627 (2024). https://doi.org/10.1038/s41578-024-00702-0
- Wang, J., Chortos, A. Performance metrics for shape-morphing devices. Nat Rev Mater (2024). https://doi.org/10.1038/s41578-024-00714-w
- Aliyev I. X., Abdurakhmanov S. M. The algorithm of complex analysis of resonant nuclear reactions. Materials of the I International Scientific Conference "Modern problems of science, technology and production". SRI "PRNR". Electron Laboratory LLC. Ridero. pp. 193-217 p.
- Aliev I. X. Aluminum resonant nuclear reaction. The international scientific journal "All Sciences". Electron Scientific School, Ridero. No. 3, 2022. 24-44 p.
- Tiantian Wang, Zhoulu Wang, Haiying Li, Long Cheng, Yutong Wu, Xiang Liu, Leichao Meng, Yi Zhang, Shan Jiang. Recent status, key strategies, and challenging prospects for fast charging silicon-based anodes for lithium-ion batteries. Carbon. Volume 230, November 2024, 119615. https://doi.org/10.1016/j.carbon.2024.119615
- Xinyue Cheng, Xiaojuan Tian, Shiqin Liao, Qingqing Wang, Qufu Wei. Wet spinning for high-performance fiber supercapacitor based on Fe-doped MnO2 and graphene. Carbon. Volume 230, November 2024, 119572. https://doi.org/10.1016/j.carbon.2024.119572
- Lipan Qin, Lanxiang Yang, Xiaochen Liu, Ke Li, Jian-Ping Cao, Jin Zhang. Nano-sulfur decorated graphene oxide to improve the mechanical properties of natural rubber by interfacial participate in the vulcanization reaction. Carbon. Volume 230, November 2024, 119570.
- Wootaek Choi, Minsu Park, Sujeong Woo, Hyunwoo Kim, Min Sung Kang, Junghyun Choi, Sung Beom Cho, Taehoon Kim, Patrick Joohyun Kim. Towards ultra-stable and dendrite-suppressed Li-metal batteries: Ion-regulating graphene-modified separators. Carbon. Volume 230, November 2024, 119576. https://doi.org/10.1016/j.carbon.2024.119576
- Данные NASA. Цит. по базе климатических данных RETScreen Архивная копия от 5 декабря 2015 на Wayback Machine