The graphs play an important role in our daily life. For example, the urban transport network can be represented by a graph, as the intersections are the vertices and the streets are the edges of the graph. Suppose that some edges of the graph are removed, the question arises, how damaged the graph is. There are some criteria for measuring the vulnerability of graph; the tenacity is the best criteria for measuring it. In this paper, we find some edge cut sets for organic compounds CnH2n+2 and obtain an upper bound for Te(CnH2n+2) by these edge cut sets.
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Shirdel, G. H., & Vaezzadeh, B. (2020). Some Edge Cut Sets and an Upper bound for Edge Tenacity of Organic Compounds CnH2n+2. Analytical and Numerical Solutions for Nonlinear Equations, 5(1), 1-21. doi: 10.22128/gadm.2020.316.1024
MLA
Gholam Hassan Shirdel; Boshra Vaezzadeh. "Some Edge Cut Sets and an Upper bound for Edge Tenacity of Organic Compounds CnH2n+2", Analytical and Numerical Solutions for Nonlinear Equations, 5, 1, 2020, 1-21. doi: 10.22128/gadm.2020.316.1024
HARVARD
Shirdel, G. H., Vaezzadeh, B. (2020). 'Some Edge Cut Sets and an Upper bound for Edge Tenacity of Organic Compounds CnH2n+2', Analytical and Numerical Solutions for Nonlinear Equations, 5(1), pp. 1-21. doi: 10.22128/gadm.2020.316.1024
VANCOUVER
Shirdel, G. H., Vaezzadeh, B. Some Edge Cut Sets and an Upper bound for Edge Tenacity of Organic Compounds CnH2n+2. Analytical and Numerical Solutions for Nonlinear Equations, 2020; 5(1): 1-21. doi: 10.22128/gadm.2020.316.1024