What is taken into consideration in our present study is the influence of temperature-dependent fluid properties over a moving plate in a parallel stream with a constant magnetic field applied outside the boundary layer parallel to theplate.The nonlinear partial differential equation is gained and was transformed into ordinary differential equations using a similarity transformation.The governing equations of the problem show that the flow,the induce magnetic field and the heat transfer characteristics depend on five parameters,namely,the magnetic parameter,the magnetic Prandtl number,the fluid viscosity parameter,the Prandtl number,the variable thermal conductivity parameter and the moving parameter.The numerical values of the horizontal velocity,induced magnetic field,temperature,skip friction,induced magnetic field gradient and the Nusselt number are presented through graphs and tables for several sets of values of the parameters.It is found that dual solutions exist for the plate and the fluid move in the opposite directions up to critical values of the moving parameter,whose value depends on the values of magnetic parameter,fluid viscosity parameter,variable thermal conductivity parameter and Prandtl number.