This paper dealt with the determination—at room temperature—of two contributions to the total anisotropy field $H_{A}$ of soft ferrite-based composite materials. These contributions ( $H_{K}$ and $H_{\sigma })$ came from the magnetocrystalline anisotropy and from the magnetoelasticity, respectively. The values of $H_{A}$ were determined through microwave measurements of the permeability [ferromagnetic resonance method (FMR)] and also through a static method [singular point detection method (SPD)]. The contributions of $H_{K}$ and $H_{\sigma }$ were experimentally distinguished and separated and their values interpreted. The results obtained from these two methods compare well. The values of $H_{K}$ are consistent with the published data. The ability of the SPD method to determine induced anisotropy fields in materials textured by external stress is highlighted. The FMR method appeared to be more precise in measuring $H_{A}$ , $H_{K}$ , and $H_{\sigma }$ , in reason of some inaccuracies coming from the sensitivity of the SPD method to demagnetizing effects. However, and unlike the FMR method, the SPD method is believed to be applicable to further temperature measurements of anisotropy fields.