let G2 be locally-finite _Graph; for v, w being Vertex of G2
for e being object
for G1 being addEdge of G2,v,e,w holds
( not v <> w or G1 .minInDegree() = G2 .minInDegree() or G1 .minInDegree() = (w .inDegree()) + 1 )
let v, w be Vertex of G2; for e being object
for G1 being addEdge of G2,v,e,w holds
( not v <> w or G1 .minInDegree() = G2 .minInDegree() or G1 .minInDegree() = (w .inDegree()) + 1 )
let e be object ; for G1 being addEdge of G2,v,e,w holds
( not v <> w or G1 .minInDegree() = G2 .minInDegree() or G1 .minInDegree() = (w .inDegree()) + 1 )
let G1 be addEdge of G2,v,e,w; ( not v <> w or G1 .minInDegree() = G2 .minInDegree() or G1 .minInDegree() = (w .inDegree()) + 1 )
(w .inDegree()) +` 1 = (w .inDegree()) +` 1
;
hence
( not v <> w or G1 .minInDegree() = G2 .minInDegree() or G1 .minInDegree() = (w .inDegree()) + 1 )
by Th71; verum