350 CHAPTER 6 Graph Theory
- Find a Hamiltonian cycle in the following graph:
abp t
<^0
d h
e 9 k IrG HS
f
Cl'- Complete the proof of Example^5 in Section 6.3. 1.
- Complete the proof of Case ii of Example 6 in Section 6.3. 1.
27. Show that the function F(a) = 3, F(b) = 1, F(c) = 4, and F(d) th2 is an isomor-
phism between the graphs G and H as shown:a b^1 2V3d C^4
G H- Prove that for two graphs G and H that G is isomorphic to H if and only if G is
isomorphic to R. - Let G = (V, E) and H =(V 1 , EI) be isomorphic graphs. Prove the degrees of the
vertices of G are exactly the degrees of the vertices of H. Show that IV =V, and
I E I = I EI alone do not imply that G and H are isomorphic.
- Prove that G and H as shown are isomorphic:
1 2 a5 4 a bA d
f
G H3 1. Prove that G and H as shown are not isomorphic:4 abG H