5. Fleury's algorithm is an optimisation solution for finding a Euler Circuit of Euler Path in a graph, if they exist. Describe how this algorithm will always find a path or circuit if it exists....


5. Fleury's algorithm is an optimisation solution for finding a Euler Circuit<br>of Euler Path in a graph, if they exist. Describe how this algorithm will<br>always find a path or circuit if it exists.<br>Describe how you calculate if the graph is connected at each edge removal.<br>Fleury's Algorithm:<br>The algorithm starts at a vertex of v odd degree, or, if the graph has none,<br>it starts with an arbitrarily chosen vertex. At each step it chooses the next<br>edge in the path to be one whose deletion would not disconnect the graph,<br>unless there is no such edge, in which case it picks the remaining edge (a<br>bridge) left at the current vertex.<br>It then moves to the other endpoint of that edge and adds the edge to the<br>path or circuit. At the end of the algorithm there are no edges left ( or<br>all your bridges are burnt).<br>(NOTE: Please elaborate on the answer and explain. Please do not copy-paste the answer from the<br>internet or from Chegg.)<br>

Extracted text: 5. Fleury's algorithm is an optimisation solution for finding a Euler Circuit of Euler Path in a graph, if they exist. Describe how this algorithm will always find a path or circuit if it exists. Describe how you calculate if the graph is connected at each edge removal. Fleury's Algorithm: The algorithm starts at a vertex of v odd degree, or, if the graph has none, it starts with an arbitrarily chosen vertex. At each step it chooses the next edge in the path to be one whose deletion would not disconnect the graph, unless there is no such edge, in which case it picks the remaining edge (a bridge) left at the current vertex. It then moves to the other endpoint of that edge and adds the edge to the path or circuit. At the end of the algorithm there are no edges left ( or all your bridges are burnt). (NOTE: Please elaborate on the answer and explain. Please do not copy-paste the answer from the internet or from Chegg.)

Jun 08, 2022
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