Yinusa, A.; Amokun, R.; Eke, J.; Sobamowo, G.; Oguntala, G.; Ehinmowo, A.; Salami, F.; Osigwe, O.; Adelaja, A.; Ojolo, S.;
et al. Machine Learning Approach to Nonlinear Fluid-Induced Vibration of Pronged Nanotubes in a Thermal–Magnetic Environment. Vibration 2025, 8, 35.
https://doi.org/10.3390/vibration8030035
AMA Style
Yinusa A, Amokun R, Eke J, Sobamowo G, Oguntala G, Ehinmowo A, Salami F, Osigwe O, Adelaja A, Ojolo S,
et al. Machine Learning Approach to Nonlinear Fluid-Induced Vibration of Pronged Nanotubes in a Thermal–Magnetic Environment. Vibration. 2025; 8(3):35.
https://doi.org/10.3390/vibration8030035
Chicago/Turabian Style
Yinusa, Ahmed, Ridwan Amokun, John Eke, Gbeminiyi Sobamowo, George Oguntala, Adegboyega Ehinmowo, Faruq Salami, Oluwatosin Osigwe, Adekunle Adelaja, Sunday Ojolo,
and et al. 2025. "Machine Learning Approach to Nonlinear Fluid-Induced Vibration of Pronged Nanotubes in a Thermal–Magnetic Environment" Vibration 8, no. 3: 35.
https://doi.org/10.3390/vibration8030035
APA Style
Yinusa, A., Amokun, R., Eke, J., Sobamowo, G., Oguntala, G., Ehinmowo, A., Salami, F., Osigwe, O., Adelaja, A., Ojolo, S., & Usman, M.
(2025). Machine Learning Approach to Nonlinear Fluid-Induced Vibration of Pronged Nanotubes in a Thermal–Magnetic Environment. Vibration, 8(3), 35.
https://doi.org/10.3390/vibration8030035
