3. Proof that an undirected graph has an even number of vertices of odd degree.
Let G be a graph with e edges and n vertices v1,v2,v3,...,vn.
Since each edge is incident on two vertices, it contributes 2 to the sum of degree of vertices in graph G. Thus the sum of degrees of all vertices in G is twice the number of edges in G:"\u2211^n_{i=1}degree(v_i)=2e"
Let the degrees of first r vertices be even and the remaining (n−r) vertices have odd degrees, then:
"\u2211^n_{i=1}degree(v_i)=\u2211^r_{i=1}degree(v_i)+\u2211^n_{i=r+1}degree(v_i)"
"\\implies \u2211^n_{i=1}degree(v_i)+\u2211^r_{i=1}degree(v_i)"
"\\implies \u2211^n_{i=r+1}degree(v_i)" is even.
But, the for "i=r+1,r+2,...,n" each "d(v_i)" is odd. So, the number of terms in
"\u2211^n_{i=r+1}degree(v_i)" must be even. So, "(n-r)" is even.
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