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Zenodo
2026
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| Online Access: | https://doi.org/10.5281/zenodo.18907855 |
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| _version_ | 1866901205680128000 |
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| author | Rmden, ibrhim Rmden, ibrhim |
| author_facet | Rmden, ibrhim Rmden, ibrhim |
| contents | <p>I am pleased to submit my original research manuscript titled "Environment-Frequency Coupling Law (EFCL): Core Derived Model and Theoretical Framework" for consideration as a research article in your esteemed journal.</p> <p>This study introduces a novel physical framework (EFCL) that mathematically couples internal energy, external frequency variations, and environmental parameters to predict force responses in particle systems. Our findings demonstrate a quadratic dependency between frequency and effective force (\Delta F \propto \nu^2), providing a robust tool for precision control in vibration-sensitive environments.</p> <p>I believe this work aligns perfectly with the scope of the Journal of Vibration Engineering & Technologies, particularly in the fields of theoretical vibration and dynamic system modeling. This manuscript is original, has not been published elsewhere, and is not under consideration by any other journal.</p> <p>Thank you for your time and consideration. I look forward to hearing from you.</p> <p>Sincerely,</p> <p>Ibrahim Ramadan Al-Shtiwie</p> <p>Independent Researcher & Inventor</p> <p>Tripoli, Libya</p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_5281_zenodo_18907855 |
| institution | Zenodo |
| language | |
| publishDate | 2026 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Environment-Frequency Coupling Law (EFCL): Core Derived Model and Theoretical Framework Rmden, ibrhim Rmden, ibrhim <p>I am pleased to submit my original research manuscript titled "Environment-Frequency Coupling Law (EFCL): Core Derived Model and Theoretical Framework" for consideration as a research article in your esteemed journal.</p> <p>This study introduces a novel physical framework (EFCL) that mathematically couples internal energy, external frequency variations, and environmental parameters to predict force responses in particle systems. Our findings demonstrate a quadratic dependency between frequency and effective force (\Delta F \propto \nu^2), providing a robust tool for precision control in vibration-sensitive environments.</p> <p>I believe this work aligns perfectly with the scope of the Journal of Vibration Engineering & Technologies, particularly in the fields of theoretical vibration and dynamic system modeling. This manuscript is original, has not been published elsewhere, and is not under consideration by any other journal.</p> <p>Thank you for your time and consideration. I look forward to hearing from you.</p> <p>Sincerely,</p> <p>Ibrahim Ramadan Al-Shtiwie</p> <p>Independent Researcher & Inventor</p> <p>Tripoli, Libya</p> |
| title | Environment-Frequency Coupling Law (EFCL): Core Derived Model and Theoretical Framework |
| url | https://doi.org/10.5281/zenodo.18907855 |