HALL AND HEAT SOURCE EFFECTS OF FLOW STATE ON A VERTICALLY ACCELERATING PLATE IN AN ISOTHERMAL ENVIRONMENT, INCLUDING CHEMICAL REACTIONS, ROTATION, RADIATION, AND THE DUFOUR EFFECT

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Lakshmikaanth, D. and Selvaraj, A. and Tamilselvi, L. and Jose, S. Dilip and Velukumar, V. (2024) HALL AND HEAT SOURCE EFFECTS OF FLOW STATE ON A VERTICALLY ACCELERATING PLATE IN AN ISOTHERMAL ENVIRONMENT, INCLUDING CHEMICAL REACTIONS, ROTATION, RADIATION, AND THE DUFOUR EFFECT. JP Journal of Heat and Mass Transfer, 37 (4). pp. 491-520. ISSN 09735763

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Official URL: https://doi.org/10.17654/0973576324034

Abstract

We examine the collective impact of Hall current and radiation-enhanced thermal sources on the laminar flow of a first-order fluid. The analysis pertains to heat transfer and accumulation dynamics over a uniformly heated vertical plate in motion with rotation and Dufour effect. Laplace methods were applied to derive solutions. Results show how key parameters affect velocity, temperature, and concentration profiles. © 2025 Elsevier B.V., All rights reserved.

Item Type:	Article
Subjects:	Physics and Astronomy > Physics
Divisions:	Arts and Science > School of Arts and Science, Chennai > Mathematics
Depositing User:	Unnamed user with email techsupport@mosys.org
Last Modified:	27 Nov 2025 05:25
URI:	https://vmuir.mosys.org/id/eprint/1505

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HALL AND HEAT SOURCE EFFECTS OF FLOW STATE ON A VERTICALLY ACCELERATING PLATE IN AN ISOTHERMAL ENVIRONMENT, INCLUDING CHEMICAL REACTIONS, ROTATION, RADIATION, AND THE DUFOUR EFFECT

Abstract

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