Application of the differential transformation method to the solutions of Falkner-Skan wedge flow

Based on a new analytical method, namely homotopy analysis method (HAM), an approximate analytical solution to the Falkner-Skan wedge flow; with the boundary conditions of f ð0Þ ¼ c > 0; f 0 ð0Þ ¼ 0; f 0 ðþ1Þ ¼ 0, i.e. the permeable wall mass transfer conditions of uniform suction, is given. The com

s transformation a b s t r a c t In this work, an analysis is performed to find the series solution of the boundary layer Falkner-Skan equation for wedge. The boundary layer similarity equation takes into account a special form of the chosen magnetic field. The results are obtained by solving the n

Based on a new approximation method, namely pseudospectral method, a solution for the three order nonlinear ordinary differential laminar boundary layer Falkner-Skan equation has been obtained on the semi-infinite domain. The proposed approach is equipped by the orthogonal Hermite functions that hav

In this paper two nonlinear heat transfer problems were solved by considering variable specific heat coefficient. The calculations are carried out by using differential transformation method (DTM) which is a semi-numerical-analytical solution technique. By using DTM, the nonlinear constrained govern