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In 1977, Yu.V. Matiyasevich proposed a formula expressing the chromatic polynomial of an arbitrary graph as a linear combination of flow polynomials of subgraphs of the original graph. In this paper, we prove that this representation is a particular case of one (easily verifiable) formula, namely, the representation of the characteristic polynomial of an arbitrary matroid as a linear combination of characteristic polynomials of dual matroids. As applications, we consider an explicit expression for the flow polynomial of a complete graph and a formula for the characteristic polynomial of the matroid dual to the matroid of the projective geometry over a finite field. We prove, in particular, that their major coefficients are defined by the beginning of a certain row in the Pascal triangle. We study in detail the connection with convolution formulas and other results for Tutte polynomials.
É. Yu. Lerner (Sun,) studied this question.