Seymour B. Elk

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1998

22 EE Seymour B. Elk: The Distinction between Terminology versus Orismology and Its Application to Mathematical Chemistry. Journal of Chemical Information and Computer Sciences 38(1): 54-57 (1998)

1997

21 EE Seymour B. Elk: Fundamental Difference That Exists between Synthetic versus Analytic Chemical Nomenclature. Journal of Chemical Information and Computer Sciences 37(2): 162-164 (1997)

20 EE Seymour B. Elk: Uniparametricity-Why a Canonical Ordering (and a Consistent Nomenclature) for Organic Compounds Continues To Evade Us. Journal of Chemical Information and Computer Sciences 37(4): 696-700 (1997)

19 EE Seymour B. Elk: Orismology (the Science of Defining Words) and the Geometrical Foundations of Chemistry. 5. The Heuristics of Primacy. Journal of Chemical Information and Computer Sciences 37(5): 835-840 (1997)

1996

18 EE Seymour B. Elk: Orismology (the Science of Defining Words) and the Geometrical Foundations of Chemistry, 4. Polycyclic Compounds. Journal of Chemical Information and Computer Sciences 36(3): 385-392 (1996)

1995

17 Seymour B. Elk: A Canonical Assignment of Locant Numbers to Fisular Compounds-Especially Fullerenes-Based on Graph Theoretical Principles. Journal of Chemical Information and Computer Sciences 35(1): 152-158 (1995)

16 Seymour B. Elk: Expansion of Matula Numbers to Heteroatoms and to Ring Compounds. Journal of Chemical Information and Computer Sciences 35(2): 233-236 (1995)

15 Seymour B. Elk: A Simplified Algorithm Using Base 5 Numbers to Assign Canonical Names to Cata-Condensed Benzenoid Polybenzenes. [Erratum to document cited in CA120: 297668]. Journal of Chemical Information and Computer Sciences 35(4): 786-786 (1995)

14 Seymour B. Elk: Re-examining Fluxions and Pseudorotation - Why Hepta-Coordinated Compounds Are Not Well Represented as a Pentagonal Bipyramid. Journal of Chemical Information and Computer Sciences 35(5): 858-863 (1995)

1994

13 EE Seymour B. Elk: Orismology (The Science of Defining Words) and the Geometrical Foundations of Chemistry. 2. Inherent Topology. Journal of Chemical Information and Computer Sciences 34(2): 325-330 (1994)

12 EE Seymour B. Elk, Ivan Gutman: Further Properties Derivable from the Matula Number of an Alkane. Journal of Chemical Information and Computer Sciences 34(2): 331-334 (1994)

11 EE Seymour B. Elk: A Simplified Algorithm Using Base 5 Numbers To Assign Canonical Names to Cata-Condensed Polybenzenes. Journal of Chemical Information and Computer Sciences 34(3): 637-640 (1994)

10 EE Seymour B. Elk: Prime Number Assignment to a Hexagonal Tessellation of a Plane That Generates Canonical Names for Peri-Condensed Polybenzenes. Journal of Chemical Information and Computer Sciences 34(4): 942-946 (1994)

9 EE Seymour B. Elk: Simplified Nomenclature of a Hexagonal Tessellation Lattice Using a Dimension-Increasing Transformation. Journal of Chemical Information and Computer Sciences 34(6): 1294-1296 (1994)

1992

8 EE Seymour B. Elk: Graph theoretical algorithm to canonically name the isomers of the regular polyhedranes. Journal of Chemical Information and Computer Sciences 32(1): 14-22 (1992)

1990

7 EE Seymour B. Elk: Interpretation of Kuratowski's theorem in graph theory as both a topological abstraction and a chemical reality. Journal of Chemical Information and Computer Sciences 30(1): 69-72 (1990)

1987

6 EE Seymour B. Elk: An algorithm to identify and count coplanar isomeric molecules formed by the linear fusion of cyclopentane modules. Journal of Chemical Information and Computer Sciences 27(2): 67-69 (1987)

5 EE Seymour B. Elk: Topological considerations subtly inherent in the formulation and subdivision of fused vs. bridged ring compounds. Journal of Chemical Information and Computer Sciences 27(2): 70-73 (1987)

1986

4 EE Seymour B. Elk: Logical extension of an isomeric pseudoconversion of polycyclic aromatic hydrocarbons into acyclic polyenynes. Journal of Chemical Information and Computer Sciences 26(3): 126-130 (1986)

1985

3 EE Seymour B. Elk: Effect of taxonomy class and spanning set on identifying and counting rings in a compound. Journal of Chemical Information and Computer Sciences 25(1): 11-16 (1985)

2 EE Seymour B. Elk: Topologically different models to be used as the basis for ring compound taxonomy. Journal of Chemical Information and Computer Sciences 25(1): 17-22 (1985)

1984

1 EE Seymour B. Elk: Derivation of the principle of smallest set of smallest rings from Euler's polyhedron equation and a simplified technique for finding this set. Journal of Chemical Information and Computer Sciences 24(4): 203-206 (1984)

1998
22	EE	Seymour B. Elk: The Distinction between Terminology versus Orismology and Its Application to Mathematical Chemistry. Journal of Chemical Information and Computer Sciences 38(1): 54-57 (1998)
1997
21	EE	Seymour B. Elk: Fundamental Difference That Exists between Synthetic versus Analytic Chemical Nomenclature. Journal of Chemical Information and Computer Sciences 37(2): 162-164 (1997)
20	EE	Seymour B. Elk: Uniparametricity-Why a Canonical Ordering (and a Consistent Nomenclature) for Organic Compounds Continues To Evade Us. Journal of Chemical Information and Computer Sciences 37(4): 696-700 (1997)
19	EE	Seymour B. Elk: Orismology (the Science of Defining Words) and the Geometrical Foundations of Chemistry. 5. The Heuristics of Primacy. Journal of Chemical Information and Computer Sciences 37(5): 835-840 (1997)
1996
18	EE	Seymour B. Elk: Orismology (the Science of Defining Words) and the Geometrical Foundations of Chemistry, 4. Polycyclic Compounds. Journal of Chemical Information and Computer Sciences 36(3): 385-392 (1996)
1995
17		Seymour B. Elk: A Canonical Assignment of Locant Numbers to Fisular Compounds-Especially Fullerenes-Based on Graph Theoretical Principles. Journal of Chemical Information and Computer Sciences 35(1): 152-158 (1995)
16		Seymour B. Elk: Expansion of Matula Numbers to Heteroatoms and to Ring Compounds. Journal of Chemical Information and Computer Sciences 35(2): 233-236 (1995)
15		Seymour B. Elk: A Simplified Algorithm Using Base 5 Numbers to Assign Canonical Names to Cata-Condensed Benzenoid Polybenzenes. [Erratum to document cited in CA120: 297668]. Journal of Chemical Information and Computer Sciences 35(4): 786-786 (1995)
14		Seymour B. Elk: Re-examining Fluxions and Pseudorotation - Why Hepta-Coordinated Compounds Are Not Well Represented as a Pentagonal Bipyramid. Journal of Chemical Information and Computer Sciences 35(5): 858-863 (1995)
1994
13	EE	Seymour B. Elk: Orismology (The Science of Defining Words) and the Geometrical Foundations of Chemistry. 2. Inherent Topology. Journal of Chemical Information and Computer Sciences 34(2): 325-330 (1994)
12	EE	Seymour B. Elk, Ivan Gutman: Further Properties Derivable from the Matula Number of an Alkane. Journal of Chemical Information and Computer Sciences 34(2): 331-334 (1994)
11	EE	Seymour B. Elk: A Simplified Algorithm Using Base 5 Numbers To Assign Canonical Names to Cata-Condensed Polybenzenes. Journal of Chemical Information and Computer Sciences 34(3): 637-640 (1994)
10	EE	Seymour B. Elk: Prime Number Assignment to a Hexagonal Tessellation of a Plane That Generates Canonical Names for Peri-Condensed Polybenzenes. Journal of Chemical Information and Computer Sciences 34(4): 942-946 (1994)
9	EE	Seymour B. Elk: Simplified Nomenclature of a Hexagonal Tessellation Lattice Using a Dimension-Increasing Transformation. Journal of Chemical Information and Computer Sciences 34(6): 1294-1296 (1994)
1992
8	EE	Seymour B. Elk: Graph theoretical algorithm to canonically name the isomers of the regular polyhedranes. Journal of Chemical Information and Computer Sciences 32(1): 14-22 (1992)
1990
7	EE	Seymour B. Elk: Interpretation of Kuratowski's theorem in graph theory as both a topological abstraction and a chemical reality. Journal of Chemical Information and Computer Sciences 30(1): 69-72 (1990)
1987
6	EE	Seymour B. Elk: An algorithm to identify and count coplanar isomeric molecules formed by the linear fusion of cyclopentane modules. Journal of Chemical Information and Computer Sciences 27(2): 67-69 (1987)
5	EE	Seymour B. Elk: Topological considerations subtly inherent in the formulation and subdivision of fused vs. bridged ring compounds. Journal of Chemical Information and Computer Sciences 27(2): 70-73 (1987)
1986
4	EE	Seymour B. Elk: Logical extension of an isomeric pseudoconversion of polycyclic aromatic hydrocarbons into acyclic polyenynes. Journal of Chemical Information and Computer Sciences 26(3): 126-130 (1986)
1985
3	EE	Seymour B. Elk: Effect of taxonomy class and spanning set on identifying and counting rings in a compound. Journal of Chemical Information and Computer Sciences 25(1): 11-16 (1985)
2	EE	Seymour B. Elk: Topologically different models to be used as the basis for ring compound taxonomy. Journal of Chemical Information and Computer Sciences 25(1): 17-22 (1985)
1984
1	EE	Seymour B. Elk: Derivation of the principle of smallest set of smallest rings from Euler's polyhedron equation and a simplified technique for finding this set. Journal of Chemical Information and Computer Sciences 24(4): 203-206 (1984)

Coauthor Index

1 Ivan Gutman [12]