Abstract
Numerical analysis of the time-dependent magnetized micropolar fluid flow over a curved surface is deliberated in this investigation. The thermal jumped and velocity slip effects are deliberated on the curved surface. Developed mathematical model has been developed under the flow assumptions. This model reduced into the dimensionless form by means of similarity transformations. Dimensionless system has been solved through the numerical technique. The involving physical parameters are analyzed through graphs and table. Surprisingly, fraction between surface and fluid increases and reduced heat transfer rate for augmenting of magnetic field. Heat transfer improved for increasing the values of Biot number.