The Multiplicity-Polar Theorem

Given a family of pairs of modules parametrised by a smooth space Y, the Multiplicity-Polar Theorem relates the multiplicity of the pair of modules at a special point of the parameter to the multiplicity of the pair at a generic point. This theorem is proved in this paper (Corollary 1.4). The applications of the Multiplicity-Polar theorem are of two types. In the first we construct a deformation so that we can understand the significance of the multiplicity of the pair, or show we can use the multiplicity of the pair to describe some geometric behavior. Applications of this type are the geometric significance of the BR-multiplicity (Theorem 2.1), the geometric significance of multiplicity of the pair (J(f), I) where f defines a hypersurface with non-isolated singularities, J(f) is the jacobian ideal of f and I is the ideal of the singular locus of the hypersurface. We do the cases where I defines a complete intersection (Theorem 2.3), or the hypersurface is the image of a finitely determined map-germ F: C^2,0\to C^3,0 (Theorem 2.6). We then show how the multiplicity of the pair can be used to calculate the index of a differential 1-form with an isolated singularity on a germ of an isolated singularity (Theorem 2.8). In the second kind of application, we use the generalization of the Principle of Specialization of Integral Dependence to prove results in equisingularity. The particular condition we study in this paper is the W_f condition (Theorems 2.10 and 2.11).