Thermomechanism: Snake pit membrane
This article introduces the IR sensor in the living organism. Electrodynamics in the living system is aimed to introduce electromagnetic mechanism inside the biological system and correlates the biofunction of living organisms. Here, we have introduced the biological accurate snake pit membrane’s mo...
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my.utm.929102021-11-07T05:54:59Z http://eprints.utm.my/id/eprint/92910/ Thermomechanism: Snake pit membrane Singh, Pushpendra Ray, Kanad Yupapin, Preecha Ong, Chee Tiong Ali, Jalili Bandyopadhyay, Anirban QA Mathematics This article introduces the IR sensor in the living organism. Electrodynamics in the living system is aimed to introduce electromagnetic mechanism inside the biological system and correlates the biofunction of living organisms. Here, we have introduced the biological accurate snake pit membrane’s modeling, simulation methodologies, and compared it with a dielectric cavity resonator model to understand the dynamic nature and taking the action due to sudden change in environmental conditions of pit membrane. This article shows the key features of the snake pit organ in terms of temperature across the membrane and Carnot cycle’s mechanism. Temperature depended on two distinct layers across the snake’s pit membrane; we have demonstrated heat or temperature propagation across the membrane in terms of a thermodynamic cycle and explained its temperature sensitivity. Here, the resonance characteristic of the snake pit organ was studied theoretically. 2020 Conference or Workshop Item PeerReviewed Singh, Pushpendra and Ray, Kanad and Yupapin, Preecha and Ong, Chee Tiong and Ali, Jalili and Bandyopadhyay, Anirban (2020) Thermomechanism: Snake pit membrane. In: Proceedings of International Conference on Trends in Computational and Cognitive Engineering, 17 - 18 December 2020, Dhaka, Bangladesh. http://dx.doi.org/10.1007/978-981-33-4673-4_15 |
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QA Mathematics Singh, Pushpendra Ray, Kanad Yupapin, Preecha Ong, Chee Tiong Ali, Jalili Bandyopadhyay, Anirban Thermomechanism: Snake pit membrane |
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This article introduces the IR sensor in the living organism. Electrodynamics in the living system is aimed to introduce electromagnetic mechanism inside the biological system and correlates the biofunction of living organisms. Here, we have introduced the biological accurate snake pit membrane’s modeling, simulation methodologies, and compared it with a dielectric cavity resonator model to understand the dynamic nature and taking the action due to sudden change in environmental conditions of pit membrane. This article shows the key features of the snake pit organ in terms of temperature across the membrane and Carnot cycle’s mechanism. Temperature depended on two distinct layers across the snake’s pit membrane; we have demonstrated heat or temperature propagation across the membrane in terms of a thermodynamic cycle and explained its temperature sensitivity. Here, the resonance characteristic of the snake pit organ was studied theoretically. |
format |
Conference or Workshop Item |
author |
Singh, Pushpendra Ray, Kanad Yupapin, Preecha Ong, Chee Tiong Ali, Jalili Bandyopadhyay, Anirban |
author_facet |
Singh, Pushpendra Ray, Kanad Yupapin, Preecha Ong, Chee Tiong Ali, Jalili Bandyopadhyay, Anirban |
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Singh, Pushpendra |
title |
Thermomechanism: Snake pit membrane |
title_short |
Thermomechanism: Snake pit membrane |
title_full |
Thermomechanism: Snake pit membrane |
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Thermomechanism: Snake pit membrane |
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Thermomechanism: Snake pit membrane |
title_sort |
thermomechanism: snake pit membrane |
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2020 |
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http://eprints.utm.my/id/eprint/92910/ http://dx.doi.org/10.1007/978-981-33-4673-4_15 |
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1717093391846604800 |
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13.211869 |