Modeling and Solution of Reaction–Diffusion Equations by Using the Quadrature and Singular Convolution Methods

Faculty Engineering Year: 2022
Type of Publication: ZU Hosted Pages:
Authors:
Ola Ragab Abdou Mohamed
Journal: Arabian Journal for Science and Engineering 3 Volume:
Keywords : Modeling , Solution , Reaction–Diffusion Equations , Using the Quadrature    
Abstract:
In the present work, polynomial, discrete singular convolution and sinc quadrature techniques are employed as the new techniques to derive accurate and efficient numerical solutions for the reaction–diffusion equations. Three models, Fitzhu
    
     
 
       

Author Related Publications

  • Ola Ragab Abdou Mohamed, "Analysis of Composite Plates Using Moving Least Squares Differential Quadrature Method", Science Direct, 2014 More
  • Ola Ragab Abdou Mohamed, "Efficient Quadrature Solution for Composite Plate Problems", medwelljournals, 2014 More
  • Ola Ragab Abdou Mohamed, "Quadrature Analysis of Functionally Graded Materials", IJET-IJENS, 2014 More
  • Ola Ragab Abdou Mohamed, "Natural frequencies of a functionally graded cracked beam using the differential quadrature method", Science Direct, 2009 More
  • Ola Ragab Abdou Mohamed, "Vibration analysis of structural elements using differential quadrature method", Cairo University, 2012 More

Department Related Publications

  • Salwa Amien Mohamed ebrhiem, "Analysis of cracked plates using an iterative hybrid technique of boundary element method and distributed dislocation method", لايوجد, 1900 More
  • Salwa Amien Mohamed ebrhiem, "Analytical Solution of Cracked Shell Resting on Elastic Foundation", لايوجد, 1900 More
  • Salwa Amien Mohamed ebrhiem, "Analysis of cracked plates using an iterative hybrid technique of boundary element method and distributed dislocation method", Elsevier, 2007 More
  • Ola Ragab Abdou Mohamed, "Efficient Quadrature Solution for Composite Plate Problems", medwelljournals, 2014 More
  • Amgad Elsayed Soulaiman , "Computerized Langmuir Probe Measurements in a Capacitively Coupled RF Discharge", 28th ICPIG, July 15-20, 2007, Prague, Czech Republic, 2007 More
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