## Applied graph theory: graphs and electrical networks |

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### Contents

Basic theory | 1 |

Directed graphs | 23 |

Foundations of electrical network theory | 36 |

Copyright | |

8 other sections not shown

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### Common terms and phrases

1-factor 2-trees admittance associated directed graph bipartite graph branch capacitors Chen Coates graph columns completes the proof components compute connected graph consider cotree cutset defined Definition degree pairs denoted determinant directed circuits directed graph obtained directed path directed trees directed-tree edge train edge-disjoint edges of G electrical network elements equicofactor matrix Euler line example exercise Problem exists follows formulas function Gc(A graph G graph of fig graph theory graph transmission incidence matrix inductors integers L-cut Lemma Let G linear linearly independent major submatrices Mason graph n-node node set nonnegative integers nonsingular nonzero number of directed number of edges obtained from G parallel edges planar graph presented in fig realizable reference node respectively result RLC network s)-digraph second-order cofactors sectional subgraph self-loops semifactors shown in fig submatrix subset symbol system of equations Theorem topological transformation tree of G two-port network undirected variables vector voltage zero