University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
Degree distance index of the Mycielskian and its complement
1
9
EN
A.
Behtoei
Imam Khomeini International University
a.behtoei@sci.ikiu.ac.ir
M.
Anbarloei
Imam Khomeini International University
m.anbarloei@sci.ikiu.ac.ir
10.22052/ijmc.2016.10845
In this paper, we determine the degree distance of the complement of arbitrary Mycielskian graphs. It is well known that almost all graphs have diameter two. We determine this graphical invariant for the Mycielskian of graphs with diameter two.
Degree distance,Zagreb indices,Mycielskian
http://ijmc.kashanu.ac.ir/article_10845.html
http://ijmc.kashanu.ac.ir/article_10845_4ba6f41aaf61461b68f1c3078233f5e5.pdf
University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
A note on vertex-edge Wiener indices of graphs
11
17
EN
M.
Azari
Kazerun Branch, Islamic Azad University
mahdie.azari@gmail.com
10.22052/ijmc.2016.11865
The vertex-edge Wiener index of a simple connected graph G is defined as the sum of distances between vertices and edges of G. Two possible distances D_1(u,e|G) and D_2(u,e|G) between a vertex u and an edge e of G were considered in the literature and according to them, the corresponding vertex-edge Wiener indices W_{ve_1}(G) and W_{ve_2}(G) were introduced. In this paper, we present exact formulas for computing the vertex-edge Wiener indices of two composite graphs named splice and link.
Distance in graph,Vertex-edge Wiener index,Splice,Link
http://ijmc.kashanu.ac.ir/article_11865.html
http://ijmc.kashanu.ac.ir/article_11865_9080447f4b5e8d2998640cb39bf045d7.pdf
University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
Electro-spunorganic nanofibers elaboration process investigations using BPs operational matrices
19
27
EN
H.
Jafari
University of Mazandaran
jafari@umz.ac.ir
H.
Tajadodi
University of Sistan and Baluchestan
tajadodi@umz.ac.ir
10.22052/ijmc.2016.11866
In this paper operational matrix of Bernstein Polynomials (BPs) is used to solve Bratu equation. This nonlinear equation appears in the particular elecotrospun nanofibers fabrication process framework. Elecotrospun organic nanofibers have been used for a large variety of filtration applications such as in non-woven and filtration industries. By using operational matrix of fractional integration and multiplication the investigated equations are turned into set of algebraic equations. Numerical solutions show both accuracy and simplicity of the suggested approach.
Bratu equation,Elecotrospun nanofibers,Bernstein polynomials,Operational matrix
http://ijmc.kashanu.ac.ir/article_11866.html
http://ijmc.kashanu.ac.ir/article_11866_914b2e89361dc43a0182ac89574aa076.pdf
University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
Hosoya polynomials of random benzenoid chains
29
38
EN
S.-J.
Xu
Lanzhou University
shjxu@lzu.edu.cn
Q.-H.
He
Lanzhou University
heqh12@lzu.edu.cn
S.
Zhou
Jiangsu Normal University
zhous@lzu.edu.cn
W.
H.
Chan
waihchan@ied.edu.hk
waihchan@ied.edu.hk
10.22052/ijmc.2016.11867
Let $G$ be a molecular graph with vertex set $V(G)$, $d_G(u, v)$ the topological distance between vertices $u$ and $v$ in $G$. The Hosoya polynomial $H(G, x)$ of $G$ is a polynomial $sumlimits_{{u, v}subseteq V(G)}x^{d_G(u, v)}$ in variable $x$. In this paper, we obtain an explicit analytical expression for the expected value of the Hosoya polynomial of a random benzenoid chain with $n$ hexagons. Furthermore, as corollaries, the expected values of the well-known topological indices: Wiener index, hyper-Wiener index and Tratch-Stankevitch-Zefirov index of a random benzenoid chain with $n$ hexagons can be obtained by simple mathematical calculations, which generates the results given by I. Gutman et al. [Wiener numbers of random benzenoid chains, Chem. Phys. Lett. 173 (1990) 403-408].
Wiener index,Random benzenoid chain,Hosoya polynomial,Expected value,Generating function
http://ijmc.kashanu.ac.ir/article_11867.html
http://ijmc.kashanu.ac.ir/article_11867_e0847f53fd013808c54145717912481c.pdf
University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
Complete forcing numbers of polyphenyl systems
39
46
EN
B.
Liu
School of Mathematical Sciences, Xinjiang Normal University,
Urumqi, Xinjiang 830054, P. R. China
446297409@qq.com
H.
Bian
Department of Mathematics, Xinjiang Normal University,
Urumqi, Xinjiang 830054, P.R.China
bh_1218@sina.com
H.
Yu
College of Mathematics and System Sciences, Xinjiang University,
Urumqi 830046, P.R.China
yhz0611@163.com
10.22052/ijmc.2016.11868
The idea of “forcing” has long been used in many research fields, such as colorings, orientations, geodetics and dominating sets in graph theory, as well as Latin squares, block designs and Steiner systems in combinatorics (see [1] and the references therein). Recently, the forcing on perfect matchings has been attracting more researchers attention. A forcing set of M is a subset of M contained in no other perfect matchings of G. A global forcing set of G, introduced by Vukiˇcevi´c et al., is a subset of E(G) on which there are distinct restrictions of any two different perfect matchings of G. Combining the above “forcing” and “global” ideas, Xu et al. [5] introduce and define a complete forcing set of G as a subset of E(G) on which the restriction of any perfect matching M of G is a forcing set of M. The minimum cardinality of complete forcing sets is the complete forcing number of G. In this paper, we give the explicit expressions for the complete forcing number of several classes of polyphenyl systems.
Complete forcing number,Polyphenly system,Global forcing number
http://ijmc.kashanu.ac.ir/article_11868.html
http://ijmc.kashanu.ac.ir/article_11868_5eb2b2f068c3fbac354c9f2fde2cfdd1.pdf
University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
Quantitative structure activity relationship study of inhibitory activities of 5-lipoxygenase and design new compounds by different chemometrics methods
47
59
EN
F.
Bagheban-Shahri
Chemistry,Arak Branch, Islamic Azad University
f.baghebanshahri@gmail.com
A.
Niazi
Chemistry,Arak Branch, Islamic Azad University
chemistrya10@gmail.com
A.
Akrami
Chemistry,Arak Branch, Islamic Azad University
aahmad.akramii@gmail.com
10.22052/ijmc.2016.11869
A quantitative structure-activity relationship (QSAR) study was conducted for the prediction of inhibitory activity of 1-phenyl[2H]-tetrahydro-triazine-3-one analogues as inhibitors of 5-Lipoxygenase. The inhibitory activities of the 1-phenyl[2H]-tetrahydro-triazine-3-one analogues modeled as a function of molecular structures using chemometrics methods such as multiple linear regression (MLR) and least squares support vector machines (LS-SVM). The obtained models were applied to predict the inhibitory activity of compounds which were not in the modeling procedure. The results of models showed high prediction ability with root mean square error of prediction of 0.167 and 0.061 for MLR and LS-SVM, respectively. The LS-SVM method was used for prediction of inhibitory activity of the new inhibitor derivatives.
QSAR,1-Phenyl[2H]-tetrahydro-triazine-3-oneanalogues,MLR,LS-SVM
http://ijmc.kashanu.ac.ir/article_11869.html
http://ijmc.kashanu.ac.ir/article_11869_1b5ded026dcd8a75a7cd052243b4ad72.pdf
University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
Three-center Harary index and its applications
61
68
EN
B.
Furtula
Faculty of Science, University of Kragujevac
boris.furtula@gmail.com
I.
Gutman
Faculty of Science, University of Kragujevac, Kragujevac, Serbia
gutman@kg.ac.rs
V.
Katanic
Faculty of Science, University of Kragujevac
vlada.karanic@gmail.com
10.22052/ijmc.2016.12402
The Harary index H can be viewed as a molecular structure descriptor composed of increments representing interactions between pairs of atoms, such that their magnitude decreases with the increasing distance between the respective two atoms. A generalization of the Harary index, denoted by Hk, is achieved by employing the Steiner-type distance between k-tuples of atoms. We show that the linear combination H+x H3 is significantly better correlated with a variety of physico-chemical properties of alkanes than H itself.
Harary index,Multicenter Harary index,Steiner distance,Molecular graph
http://ijmc.kashanu.ac.ir/article_12402.html
http://ijmc.kashanu.ac.ir/article_12402_ff64ec64188304a21bed1c7a4b1c22e4.pdf
University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
Investigation the effect of nanocomposite material on permeation flux of polyerthersulfone membrane using a mathematical approach
69
75
EN
M.
Adib
Payame Noor University (PNU)
marjan_ad_1360@yahoo.com
10.22052/ijmc.2016.12403
Integrally skinned asymmetric membranes based on nanocompositepolyethersulfone were prepared by the phase separation process using the supercritical CO2 as a nonsolvent for the polymer solution. In present study, the effects of temperature and nanoparticle on selectivity performance and permeability of gases has beeninvestigated. It is shown that the presence of silica nanoparticles not only disrupts the original polymer chain packing but also alters the chemical affinities of penetrants in polyethersulfone matrices. Because, in the presence of hydrophilic silica, CO2 affinity filler, hydrogen-bond interactions between the oxygen atoms of carbon dioxide and the hydrogen atoms of hydroxyl group on the nanosilica surface would take place at the interface and thus solubility and consequently permeability towards CO2 are higher in comparison with CH4 for the membranes. Furthermore, in present study, a novel mathematical approach has been proposed to develop a model for permeation flux and selectivity performance of the membrane using Support Vector Machine. SVM is employed to develop a model toestimateprocess output variables of a nanocomposite membrane including permeation flux and selectivity performance. Model development that consists of training, optimization and test was performed using randomly selected 80%, 10%, and 10% of available data respectively.
Nanocomposite material • Polyerthersulfone membrane • Silica nanoparticles • Support Vector Machine (SVM)
http://ijmc.kashanu.ac.ir/article_12403.html
http://ijmc.kashanu.ac.ir/article_12403_a9874c07a28f1c3c7b67ab286aecd0d9.pdf
University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
On the generalized mass transfer with a chemical reaction: Fractional derivative model
77
88
EN
A.
Ansari
Shahrekord University, P.O.Box 115, Shahrekord, Iran
alireza_1038@yahoo.com
M.
Ahmadi Darani
Department of Applied Mathematics, Faculty of Mathematical Sciences,
Shahrekord University, P.O.Box 115, Shahrekord, Iran
farshidahmadi633@gmail.com
10.22052/ijmc.2016.12404
In this article using the inverse Laplace transform, we show analytical solutions for the generalized mass transfers with (and without) a chemical reaction. These transfers have been expressed as the Couette flow with the fractional derivative of the Caputo sense. Also, using the Hankel contour for the Bromwich's integral, the solutions are given in terms of the generalized Airy functions.
Lévêque Problem,Laplace transform,Generalized Airy functions,Fractional derivative
http://ijmc.kashanu.ac.ir/article_12404.html
http://ijmc.kashanu.ac.ir/article_12404_412497ee8587a49f897a821ff5f751f8.pdf
University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
A note on hyper-Zagreb index of graph operations
89
92
EN
B.
Basavanagoud
KARNATAK UNIVERSITY DHARWAD
b.basavanagoud@gmail.com
S.
Patil
KARNATAK UNIVERSITY, DHARWAD
shreekantpatil949@gmail.com
10.22052/ijmc.2016.12405
In this paper, the Hyper - Zagreb index of the Cartesian product, composition and corona product of graphs are computed. These corrects some errors in G. H. Shirdel et al.[11].
Hyper-Zagreb index,Zagreb index,Graph operation
http://ijmc.kashanu.ac.ir/article_12405.html
http://ijmc.kashanu.ac.ir/article_12405_2b6320568ffc299789173e21593336db.pdf
University of Kashan
Iranian Journal of Mathematical Chemistry
2228-6489
2008-9015
7
1
2016
03
01
QSPR study on benzene derivatives to some physico-chemical properties by using topological indices
93
110
EN
M.
Pashm Forush
Islamic Azad Univ
F.
Shafiei
Islamic Azad Univ
shafa38@yahoo.com
F.
Dialamehpour
Islamic Azad Univ
fd200988@yahoo.com
10.22052/ijmc.2016.12410
QSPR study on benzene derivatives have been made using recently introduced topological methodology. In this study the relationship between the Randic' (x'), Balaban (J), Szeged (Sz),Harary (H), Wiener (W), HyperWiener and Wiener Polarity (WP) to the thermal energy (Eth), heat capacity (CV) and entropy (S) of benzene derivatives is represented. Physicochemical properties are taken from the quantum mechanics methodology with HF level using the ab initio 6-31G basis sets. The multiple linear regressions (MLR) and back ward methods (with significant at the 0.05 level) were employed to give the QSPR models. The satisfactory obtained results show that combining the two descriptors (Sz, HW) are useful topological descriptors for predicted (CV) and (S) of the 45 benzene derivatives. The training set models established by MLR method have not good correlation of (Eth), which means QSPR models could not predict the thermal energy of compounds.
QSPR,Topological indices,Benzene derivatives,Graph theory,Multiple linear regressions (MLR)
http://ijmc.kashanu.ac.ir/article_12410.html
http://ijmc.kashanu.ac.ir/article_12410_d4fb17c9ff5de612df4bd46f3053f2c6.pdf