The parts (a) and (b) of this problem are independentof each other.G1 G24 51 236sx yt u v(a) Prove that the graphs G1 and G2 are isomorphic byexhibiting an isomorphism from one to the other byconcrete arguments and verify it by using adjacencymatrices. Please take the ordering of the vertices as1, 2, 3, 4, 5, 6 while forming AG1, adjacency matrix ofG1.Warning: One must stick to the labelings ofthe vertices as they are given, if one changesthe labelings/orderings etc., the solution willnot be taken into account.(b) Consider the complete graph K13 with vertex setV13 = {u1, u2, u3, · · · , u13}.Let H = (V, E) be the simple graph obtained fromK13 by adding a new vertex u, i.e. V = V13 ∪ {u}and deleting the edges {u1, u2} and {u2, u3} andadding the edges {u1, u} and {u, u2} and keepingthe remaining edges same.Determine whether H has an Euler circuit or not,an Euler path or not. One must validate any conclusion by clear arguments. Problem 4:The parts (a) and (b) of this problem are independentof each other.G1G232(a) Prove that the graphs G, and G2 are isomorphic byexhibiting an isomorphism from one to the other byconcrete arguments and verify it by using adjacencymatrices. Please take the ordering of the vertices as1,2, 3, 4, 5, 6 while forming Ac,, adjacency matrix ofG1.Warning: One must stick to the labelings ofthe vertices as they are given, if one changesthe labelings/orderings etc., the solution willnot be taken into account.(b) Consider the complete graph K13 with vertex setV13 = {u1, U2, Uz, …,U13}....Let H = (V, E) be the simple graph obtained fromK13 by adding a new vertex u, i.e. V = V13 U {u}and deleting the edges {u1, u2} and {u2, uz} andadding the edges {u1, u} and {u, u2} and keepingthe remaining edges same.Determine whether H has an Euler circuit or not,an Euler path or not. One must validate any con-clusion by clear arguments.

we are given two graphs G1 and G2

Answered: Problem 4: The parts (a) and (b) of…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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Question

The parts (a) and (b) of this problem are independent
of each other.
G1 G2
4 5
1 2
3
6
s
x y
t u v
(a) Prove that the graphs G1 and G2 are isomorphic by
exhibiting an isomorphism from one to the other by
concrete arguments and verify it by using adjacency
matrices. Please take the ordering of the vertices as
1, 2, 3, 4, 5, 6 while forming AG1
, adjacency matrix of
G1.
Warning: One must stick to the labelings of
the vertices as they are given, if one changes
the labelings/orderings etc., the solution will
not be taken into account.
(b) Consider the complete graph K13 with vertex set
V13 = {u1, u2, u3, · · · , u13}.
Let H = (V, E) be the simple graph obtained from
K13 by adding a new vertex u, i.e. V = V13 ∪ {u}
and deleting the edges {u1, u2} and {u2, u3} and
adding the edges {u1, u} and {u, u2} and keeping
the remaining edges same.
Determine whether H has an Euler circuit or not,
an Euler path or not. One must validate any conclusion by clear arguments.

Problem 4:
The parts (a) and (b) of this problem are independent
of each other.
G1
G2
3
2
(a) Prove that the graphs G, and G2 are isomorphic by
exhibiting an isomorphism from one to the other by
concrete arguments and verify it by using adjacency
matrices. Please take the ordering of the vertices as
1,2, 3, 4, 5, 6 while forming Ac,, adjacency matrix of
G1.
Warning: One must stick to the labelings of
the vertices as they are given, if one changes
the labelings/orderings etc., the solution will
not be taken into account.
(b) Consider the complete graph K13 with vertex set
V13 = {u1, U2, Uz, …
,U13}.
...
Let H = (V, E) be the simple graph obtained from
K13 by adding a new vertex u, i.e. V = V13 U {u}
and deleting the edges {u1, u2} and {u2, uz} and
adding the edges {u1, u} and {u, u2} and keeping
the remaining edges same.
Determine whether H has an Euler circuit or not,
an Euler path or not. One must validate any con-
clusion by clear arguments.

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