Slow Rotation of Concentric Spheres with Source at Their Centre in a Viscous Fluid

The problem of concentric pervious spheres carrying a fluid source at their centre and rotating slowly with different uniform angular velocities Ω1, Ω2 about a diameter has been studied. The analysis reveals that only azimuthal component of velocity exists, and the couple, rate of dissipated energy is found analytically in the present situation. The expression of couple on inner sphere rotating slowly with uniform angular velocity Ω1, while outer sphere also rotates slowly with uniform angular velocity Ω2, is evaluated. The special cases, like i inner sphere is fixed i.e., Ω1 0 , while outer sphere rotates with uniform angular velocityΩ2, ii outer sphere is fixed i.e., Ω2 0 , while inner sphere rotates with uniform angular velocityΩ1, and iii inner sphere rotates with uniform angular velocity Ω1, while outer sphere rotates at infinity with angular velocity Ω2, have been deduced.