Wkb and Numerical Compound Matrix Methods for Solving the Problem of Everted Neo-hookean Spherical Shell


Authors

Morteza Sanjaranipour - Faculty Member of Sistan & Balouchestan University, Zahedan, Iran. Hamed Komeyli - MA of Applied Mathematics, Zahedan, Iran.


Abstract

The present paper deals with an eigenvalue problem which describes an everted neo-hookean spherical shell which its outer surface is deformed in compression under hydrostatic pressure. Our approach is based on mathematical modeling using a differential equation of order four and boundary conditions including two differential equations of order two and three. We solve the above mentioned problem using two different expansions of WKB method. We also investigate how to apply the numerical compound matrix on the problem and show the application of Runge-Kutta-Fehlberg and Newton-Raphson numerical algorithm. Finally, by comparing the data obtained from these two methods (numerical and WKB), we not only learn about the turning point, we also find out that the reason of the difference between the results of the two methods is this turning point.


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ISRP Style

Morteza Sanjaranipour, Hamed Komeyli, Wkb and Numerical Compound Matrix Methods for Solving the Problem of Everted Neo-hookean Spherical Shell, Journal of Mathematics and Computer Science, 11 (2014), no. 3, 177-190

AMA Style

Sanjaranipour Morteza, Komeyli Hamed, Wkb and Numerical Compound Matrix Methods for Solving the Problem of Everted Neo-hookean Spherical Shell. J Math Comput SCI-JM. (2014); 11(3):177-190

Chicago/Turabian Style

Sanjaranipour, Morteza, Komeyli, Hamed. "Wkb and Numerical Compound Matrix Methods for Solving the Problem of Everted Neo-hookean Spherical Shell." Journal of Mathematics and Computer Science, 11, no. 3 (2014): 177-190


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