In this paper is investigating the theory of generalized thermoelasticity
under two temperature is used to solve boundary value problems of 2-D
half-space its bound?ary with different types of heating under gravity
effect. The governing equations are solved using new mathematical methods
under the context of Lord-Shulman, Green-Naghdi theory of type III (G-N III)
and the three-phase-lag model to inves?tigate the surface waves in an
isotropic elastic medium subjected to gravity field, magnetic field, and
initial stress. The general solution obtained is applied to a spe?cific
problem of a half-space and the interaction with each other under the
influence of gravity. The physical domain by using the harmonic vibrations
is used to obtain the exact expressions for the Waves velocity and
attenuation coefficients for Stoneley waves, Love waves, and Rayleigh waves.
Comparisons are made with the results between the three theories. Numerical
work is also performed for a suitable material with the aim of illustrating
the results. The results obtained are calculated numerical?ly and presented
graphically with some comparisons in the absence and the presence the
influence of gravity, initial stress and magnetic field. It clears that the
results ob?tained agree with the physical practical results and agree with
the previous results if the gravity, two temperature, and initial stress
neglect as special case from this study.
The exact analytical solution of the dual-phase-lag two-temperature bioheat transfer of a skin tissue subjected to constant heat flux