THE INFLUENCE OF MOMENTUM AND CONCENTRATION SLIP BOUNDARY CONDITIONS ON A FERROMAGNETIC DIPOLE WITH RADIATION, THERMOPHORESIS, AND BROWNIAN MOTION

Nagagopiraju Vullam; Jupudi Lakshmi Rama Prasad; M. Aruna Kumari; Ramesh Adireddy; Y. Subba Rao; U. S. B. K. Mahalaxmi; R. Anil Kumar; G. Dharmaiah; Desamala Prabhakar Rao; Sarala Patchala

doi:10.26782/jmcms.2025.02.00011

Journal of Mechanics of Continua and Mathematical Sciences (Feb 2025)

THE INFLUENCE OF MOMENTUM AND CONCENTRATION SLIP BOUNDARY CONDITIONS ON A FERROMAGNETIC DIPOLE WITH RADIATION, THERMOPHORESIS, AND BROWNIAN MOTION

Nagagopiraju Vullam,
Jupudi Lakshmi Rama Prasad,
M. Aruna Kumari,
Ramesh Adireddy,
Y. Subba Rao,
U. S. B. K. Mahalaxmi,
R. Anil Kumar,
G. Dharmaiah,
Desamala Prabhakar Rao,
Sarala Patchala

Affiliations

Nagagopiraju Vullam: Department of CSE, Chalapathi Institute of Engineering and Technology Guntur, Andhra Pradesh, Guntur dist-522034, India.
Jupudi Lakshmi Rama Prasad: Department of Mathematics, P. B. Siddhartha College of Arts and Science Vijayawada, A. P., India.
M. Aruna Kumari: Dept.of Mathematics, K.K.R. & K.S.R. Institute of Technology & Sciences Vinjanampadu, Guntur, India.
Ramesh Adireddy: Department of Electrical and Electronics Engineering, Aditya University Surampalem, India.
Y. Subba Rao: Department of Mechanical Engineering, Aditya University, Surampalem India.
U. S. B. K. Mahalaxmi: Department of Electrical and Electronics Engineering, Aditya University Surampalem, India.
R. Anil Kumar: Department of Electronics and Communication Engineering, Aditya University Surampalem, India
G. Dharmaiah: Dept of Mathematics, Narasaraopet Engineering College, Yellamanda, India
Desamala Prabhakar Rao: Associate Professor, Department of ECE, Chalapati Institute of Technology Mothadaka, Guntur, India.
Sarala Patchala: Associate Professor, Dept. of ECE, KKR&KSR Institute of Technology & Sciences, Vinjanampadu, Guntur, India.

DOI: https://doi.org/10.26782/jmcms.2025.02.00011
Journal volume & issue: Vol. 20, no. 2
pp. 128 – 141

Abstract

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A magnetic dipole effects nonlinear thermal radiation from ferromagnetic liquid when stretched provinces are analyzed numerically utilizing various parameters pertinent to the problem. Ferrofluid will undergo a phase shift and become magnetic when it is in a magnetic field. This technique is useful in various fields, including electronics, loudspeakers, and materials research. This research aimed to gain further knowledge about the one-of-a-kind continual flow of ferrofluids via permeable medium, including Brownian and thermophoresis influences. Ordinary differential equations may be generated using the appropriate similarity transformation. After that, the equations are solved by using the approach known as bvp4c. Calculations are carried out to obtain the results of physical parameters with non-dimension quantities. The effects of velocity, temperature, and concentration, as well as the applications of these factors, are shown graphically. The velocity is affected in various ways by two factors, namely, the ferromagnetic parameter and the distance. The concentration is increased due to both the thermophoretic and Brownian variables. The frictional force rises as the ferromagnetic and Brownian motion parameters increase, yet the Sherwood and Nusselt numbers decrease throughout this process.

Published in Journal of Mechanics of Continua and Mathematical Sciences

ISSN: 0973-8975 (Print); 2454-7190 (Online)
Publisher: Institute of Mechanics of Continua and Mathematical Sciences
Country of publisher: India
LCC subjects: Science: Mathematics
Website: https://www.journalimcms.org/

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