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Fractional boundary layer flow and radiation heat transfer of MHD viscoelastic fluid over an unsteady stretching surface
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This paper presents an investigation for magnetohydrodynamic (MHD) viscoelastic
fluid boundary layer flow and radiation heat transfer over an unsteady stretching sheet in presence of heat source. Time dependent fractional derivative is first introduced in formulating the boundary layer equations. Numerical solutions are obtained by using the finite difference scheme and L1-algorithm approximation. Results indicate that the proposed model describes a basic delaying times framework for viscoelastic
flow and radiation heat transfer. The effects of involved parameters on velocity and temperature fields are shown graphically and analyzed in detail.
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