6. Find the depth-first spanning tree and breadth-first spanning tree for the graph with adjacency matrix...
6) Below is an adjacency matrix for an undirected graph, size n- 8. Vertices are labeled 1 to 8 Rows are labeled 1 through 8, top to bottom. Columns are labeled 1 through 8, left to right. Column labels to the right: 1 2 345 6 78 Row labels are below this: 1 0 0 1 000 0 0 2 0 0 101 1 00 (See a drippy heart?) 3 1 1 0 1 01 0 0 4 0 0...
Give the adjacency matrix representation and the adjacency lists representation for the graph G_1. Assume that vertices (e.g., in adjacency lists) are ordered alphabetically. For the following problems, assume that vertices are ordered alphabetically in the adjacency lists (thus you will visit adjacent vertices in alphabetical order). Execute a Breadth-First Search on the graph G_1, starting on vertex a. Specifiy the visit times for each node of the graph. Execute a Depth-First Search on the graph G_1 starting on vertex...
Lab 11 Adjacency Matrix Graph Objective: Create a class which constructs an adjacency matrix representation of a graph and performs a few graph operations. Write an Adjacency Matrix Graph class which has the following: Two constructors: Default which makes the matrix of a pre-defined size Parameterized which takes in a non-negative or 0 size and creates an empty matrix addEdge: this method returns nothing and takes in two string parameters and a weight. The two integer parameters correspond to the...
Consider the following directed graph for each of the problems: 1. Perform a breadth-first search on the graph assuming that the vertices and adjacency lists are listed in alphabetical order. Show the breadth-first search tree that is generated. 2. Perform a depth-first search on the graph assuming that the vertices and adjacency lists are listed in alphabetical order. Classify each edge as tree, back or cross edge. Label each vertex with its start and finish time. 3. Remove all the...
4&5 0 1 2 3 1. Draw the undirected graph that corresponds to this adjacency matrix 0 0 1 1 0 1 1 1 1 0 1 1 1 2 1 1 1 0 1 3 1 0 1 1 0 1 2. Given the following directed graph, how would you represent it with an adjacency list? 3. We've seen two ways to store graphs - adjacency matrices, and adjacency lists. For a directed graph like the one shown above,...
7.[6] Consider the graph G below: a.[3] Find a Depth-First Search tree T for the above graph starting with the vertex 0. Show all the vertices as they are discovered in sequence starting from 1 to the last vertex included in T. b.[3] Find a Breadth-First Search tree T for the above graph starting with the vertex 0. Show all the vertices as they are discovered in sequence starting from 1 to the last vertex included in T.
2. This question concerns the graph G shown below. (a) Mark the spanning tree for G obtained by performing a depth-first search starting at the vertex A, and using the convention that nearby vertices should be explored in a counter-clockwise fasion, beginning with east; so E comes first, then NE, then N, ... (b) Mark the spanning tree for G obtained by performing a breadth-first search starting at the vertex A, and using the convention that nearby vertices should be...
2. This question concerns the graph G shown below. (a) Mark the spanning tree for G obtained by performing a depth-first search starting at the vertex A, and using the convention that nearby vertices should be explored in a counter-clockwise fasion, beginning with east; so E comes first, then NE, then N, ... (b) Mark the spanning tree for G obtained by performing a breadth-first search starting at the vertex A, and using the convention that nearby vertices should be...
9. Apply figure and use adjacency matrix to represent the minimum spanning tree Kruskal algorithm to find the minimum spanning tree in the following 30 2 1) 25 9 10 12