The stability of an electrically conducting sphere levitated in a high frequency magnetic field with respect to rotational
disturbances is analyzed theoretically with and without
steady magnetic field respectively. The
dimensionless angular frequency of inducers current is ω -.Under the conditions of without steady magnetic field and the sphere is solid, there is exists a critical dimensionless angular frequency ω - c.As ω -< ω - c, the levitation of sphere sample is stable; as ω -> ω - c, the levitation of sphere sample is unstable. Under the conditions of existng steady magnetic field and the sphere is solid, there are exist a lower limit dimensionless angular frequency ω - c,1 and an upper limit dimensionless angular frequency ω - c,2 . As ω -< ω - c,1 or ω -> ω - c,2 , the levitation of sphere sample is stable; as ω - c,1 < ω -< ω - c,2 , the levitation of sphere sample is unstable. The increasing of steady magnetic field can make ω - c,1 increase and ω - c,2 decrease. As the strength of steady magnetic field B d reaches the critical value B d,c , the levitation of sphere sample is always stable. Relative to that of solid sphere, the levitation stability of liquid sphere is decreasing. Steady magnetic field can reduce the hydrodynamic destabilization and melt splashing and improve the levitation stability of liquid sphere sample.