K. A. Omoteso scite author profile

In this study, the response of two homogeneous parallel beams with two-parameter Pasternak elastic foundation subjected to a constant uniform partially distributed moving force is considered. On the basis of Euler-Bernoulli beam theory, the fourth order partial differential equations of motion describing the behavior of the beams when subjected to a moving force were formulated. In order to solve the resulting initial-boundary value problem, finite Fourier sine integral technique and differential transform scheme were employed to obtain the analytical solution. The dynamic responses of the two beams obtained was investigated under moving force conditions using MATLAB. The effects of speed of the moving force, layer parameters such as stiffness (K_0) and shear modulus (G_0 ) have been conducted for the moving force. Various values of speed of the moving load, stiffness parameters and shear modulus were considered. The results obtained indicates that response amplitudes of both the upper and lower beams increases with increase in the speed of the moving load. Increasing the stiffness parameter is observed to cause a decrease in the response amplitudes of the beams. The response amplitudes decreases with increase in the shear modulus of the linear elastic layer.

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A Modified Fractional Differential Love Model

Talabi

Odunaike

Odetunde

et al. 2019

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A modified system of nonlinear fractional-order differential equations become used to classify humans of various personalities and different Impact Factors of Memory (IFM); with unique set of model parameters. The model was used to interpret and predict the functions of the union of various people with external circumstance(s) and adapted to neighborhood environment in which the statistics collections were achieved to analyze numerous measures affecting marriages, unique challenges in marriage and associated occasions were investigated through the use of questionnaire. Data had been analyzed and the outcomes have been carried out as parameters to validate the model. Adams Predictor-Corrector Method was used to test the chaoticity of the system and it was confirmed via numerical simulations. Numerical simulation outcomes had been presented to reveal the effectiveness of the model and the accuracy of the statements established. The mathematical information implied by the model unveil an underlying mechanism which can give an explanation for couple disruption in relationships that were initially deliberated to remain all the time. Despite the terrible aspects of relationships, some human beings were still satisfied in their intimate members of the family. The study was addressed on a field survey (use of questionnaires) and with the aid of interrogating the members one on one. A feasible path for future work is the choice to attain balance through modelling and to validate the results with the aid of numerical simulations.

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Chaotic and Periodic Behavior in a Fractional-order Biological System

Roy-Layinde¹,

Omoteso²,

Ogooluwa³

et al. 2020

Acta Phys. Pol. B

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We consider the decay of the Higgs boson to W + W − at a proposed Large Hadron Electron Collider and determine the likelihood of detecting a signal for the Higgs mass from its decay product W jets by imposing cuts to select candidate jet pairs and optimizing the value of the angular separation ∆R. It was found that at the LHeC experiment (CM energy √ s = 1.3 TeV and luminosity of 100 fb −1 per year), the highest efficiency is obtained with ∆R = 0.4, along with a selection scheme of 10 < m < 85 GeV, |∆η| < 1, p T of jets 1 and 2 between 10-20 GeV and p T of jets 3 and 4 > 10 GeV: this led to an efficiency between 7.1-7.5% for finding the invariant 4-jet mass in a mass region < 140 GeV. Under signal-to-background comparison, the signal showed a 3.8σ excess compared to the charged current W-jet background.

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Delay-induced vibrational resonance in the Rayleigh–Plesset bubble oscillator

Omoteso

Roy-Layinde

Laoye

et al. 2022

J. Phys. A: Math. Theor.

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We examine the impacts of time-delay and phase shift between two acoustic driving forces on vibrational resonance (VR) phenomena in the oscillations of a spherical gas bubble. Using the approximate method of direct separation of the motions, we obtain the equation of slow motion and the response amplitude, and we validate the theoretical predictions with numerical simulations. We ﬁnd that the response amplitude of the system at the lower frequency varies periodically with respect to the phase shift. When the phase shift consists of an even number of periods, it can be optimized to enhance the system’s response in the relevant parameter space of the high-frequency driving force. In addition to the enhancement of the VR peak by variation of the phase shift, our results show that the time-delay also plays a signiﬁcant role in the bubble’s response to dual-frequency acoustic driving ﬁelds. It and can be exploited either to suppress drastically, or to modulate, the resonance peaks, thereby controlling the resonances. Our analysis shows further that cooperation between the time-delay and the amplitude of the high-frequency component of the acoustic waves can induce multiple resonances. These results could potentially be exploited to control and enhance ultrasonic cleaning processes by varying the time-delay parameter in the presence of phase shifted dual-frequency acoustic waves. Moreover, it could be employed to achieve improved accuracy in ultrasonic biomedical diagnosis and tumour therapy, as well as for targeted delivery of reagents transported within bubbles.

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Correction to: Vibrational resonance in a higher-order nonlinear damped oscillator with rough potential

et al. 2020

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K. A. Omoteso

Acoustic vibrational resonance in a Rayleigh-Plesset bubble oscillator

Vibrational resonance in a higher-order nonlinear damped oscillator with rough potential

Vibrational resonance of ammonia molecule with doubly singular position-dependent mass

Forced Response Vibration of Simply Supported Beams With an Elastic Pasternak Foundation Under a Distributed Moving Load

A Modified Fractional Differential Love Model

Chaotic and Periodic Behavior in a Fractional-order Biological System

Delay-induced vibrational resonance in the Rayleigh–Plesset bubble oscillator

Correction to: Vibrational resonance in a higher-order nonlinear damped oscillator with rough potential

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