1. Home
  2. Vol 3, No 2 (2024)
  3. Strömberg

A Dynamic Area-Pressure Model Applied to Crystals in A Pot Plant Battery and Other Space Matter

Lena J. T. Strömberg(1),


(1) KTH Royal Institute of Technology
Corresponding Author

Abstract


Physical space, geometry, and matter are described with a theoretical formula, based on experimental results for a certain battery device. The model is derived from mechanical pressure on an area and applied for forming crystals. Those were found to develop in electrical devices, providing a spatial equivalent to the electrolyte. This study provides an explanatory model in some crystal formations as well as the optical reflections in terms of spectral activity.

Keywords


Area function; Battery; Bog moss; Crystal; Cupper; Electrode; Oscillations; Pressure; Tangent bundle; Taylor Shift; True colors

References


Cady, W. G. (1949). Crystals and Electricity. Scientific American, 181(6), 46-51.

Chafin, C. E. (2016). Wave-flow interactions and acoustic streaming. arXiv preprint arXiv:1602.04893.

Colomés, O., Verdugo, F., and Akkerman, I. (2023). A monolithic finite element formulation for the hydroelastic analysis of very large floating structures. International Journal for Numerical Methods in Engineering, 124(3), 714-751.

Cremonesi, M., Franci, A., Idelsohn, S., and Oñate, E. (2020). A state of the art review of the particle finite element method (PFEM). Archives of Computational Methods in Engineering, 27(5), 1709-1735.

de Bem, N. F., Ruppert, M. G., Fleming, A. J., and Yong, Y. K. (2022). Simultaneous tip force and displacement sensing for AFM cantilevers with on-chip actuation: Design and characterization for off-resonance tapping mode. Sensors and Actuators A: Physical, 338, 113496.

Ellis, P. G., and Goscinski, O. (1974). Transition State Calculations of Oscillator Strengths in the Xα Local Exchange Approximation. Physica Scripta, 9(2), 104.

Liu, G. (2010). AG space theory and a weakened weak (W2) form for a unified formulation of compatible and incompatible methods: Part II applications to solid mechanics problems. International Journal for Numerical Methods in Engineering, 81(9), 1127-1156.

Lopes, R., Farahani, B. V., Queirós de Melo, F., and Moreira, P. M. (2023). A Dynamic Response Analysis of Vehicle Suspension System. Applied Sciences, 13(4), 2127.

Rollin, D. R., Larsson, F., Runesson, K., and Jänicke, R. (2023). Upscaling of chemo-mechanical properties of battery electrode material. International Journal of Solids and Structures, 281, 112405.

Tornabene, F., Fantuzzi, N., Ubertini, F., and Viola, E. (2015). Strong formulation finite element method based on differential quadrature: a survey. Applied Mechanics Reviews, 67(2), 020801.


Full Text: PDF

Article Metrics

Abstract View : 169 times
PDF Download : 104 times

Refbacks

  • There are currently no refbacks.


Copyright (c) 2024 Bumi Publikasi Nusantara

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.