1 Djibo Hamani University of Tahoua, Faculty of Education Sciences, Department of Discipline Didactics, PO Box: 255, Tahoua-Niger.
2 Abdou Moumouni University of Niamey, Faculty of Science and Technology, Department of Mathematics and Computer Science, PO Box: 10662, Niamey, Niger.
World Journal of Advanced Research and Reviews, 2026, 29(01), 1001-1010
Article DOI: 10.30574/wjarr.2026.29.1.0101
Received on 06 December 2025; revised on 14 January 2026; accepted on 17 January 2026
This work presents an analytical study of several partial differential equations commonly used to model physical phenomena such as heat diffusion, wave propagation, and fluid flow. Emphasis is placed on the use of trigonometric functions to derive exact or synthetic solutions. The heat equations are then is examined using Fourier series and a complex-variable approach. The linearized Saint-Venant equations are then analyzed to describe shallow water wave propagation. The Burgers, in both inviscid and viscous forms, is used to illustrate nonlinear effects, damping, and shock formation. Finally, the Korteweg-de Vrie equation is discussed through its soliton solution, highlighting the balance between nonlinearity and dispersion. These results underline the importance of analytical and trigonometric methods in the modeling of thermal and hydraulic phenomena.
Partial differential equations; Trigonometric functions; Heat equation; Saint-Venant equations; Burgers equation; Korteweg-de Vrie equation; Analytical solutions
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Maman Yarodji Abdoul Kader, Boubacar Garba and Tahirou Aboubacar Haboubacar. Application of Trigonometric Functions to Analytical Solution of Certain Parial Differential Equations. World Journal of Advanced Research and Reviews, 2026, 29(1), 1001-1010. Article DOI: https://doi.org/10.30574/wjarr.2026.29.1.0101