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Pictogramme of hierarchy—people on a "ladder"

A hierarchy (from the "Greek hierarchia, "rule of a high priest", from "hierarkhes, "leader of sacred rites") is an arrangement of items (objects, names, values, categories, etc.) in which the items are represented as being "above", "below", or "at the same level as" one another.

A hierarchy can link entities either directly or indirectly, and either vertically or diagonally. The only direct links in a hierarchy, insofar as they are hierarchical, are to one's immediate superior or to one of one's subordinates, although a system that is largely hierarchical can also incorporate alternative hierarchies. Indirect hierarchical links can extend "vertically" upwards or downwards via multiple links in the same direction, following a "path. All parts of the hierarchy which are not linked vertically to one another nevertheless can be "horizontally" linked through a path by traveling up the hierarchy to find a common direct or indirect superior, and then down again. This is akin to two "co-workers or "colleagues; each reports to a common superior, but they have the same relative amount of authority. Organizational forms exist that are both alternative and complementary to hierarchy. "Heterarchy is one such form.

## Nomenclature

Hierarchies have their own special vocabulary. These terms are easiest to understand when a hierarchy is diagrammed (see below).

In an organizational context, the following terms are often used related to hierarchies:[1][2]

• "Object: one entity (e.g., a person, department or "concept or element of arrangement or member of a set)
• "System: the entire set of objects that are being arranged hierarchically (e.g., an administration)
• "Dimension: another word for "system" from on-line analytical processing (e.g. cubes)
• "Member: an (element or object) in a (system or dimension) at any (level or rank)
• "Rank: the relative "value, worth, "complexity, "power, "importance, "authority, level etc. of an object
• Level: a set of objects with the same rank OR importance
• "Ordering: the arrangement of the (ranks or levels)
• Hierarchy: the arrangement of a particular set of (ranks or levels) i.e. multiple hierarchies are possible per (dimension or system)
• "Collection: all of the objects at one level
• "Superior: a higher level or an object ranked at a higher level (parent or ancestor)
• Subordinate: a lower level or an object ranked at a lower level (child or descendent)
• Hierarch, the top level of the hierarchy, usually consisting of one object or member of a dimension
• Peer: an object with the same rank (and therefore at the same level)
• Neighbour: the adjacent level/ranking (the immediate superior and immediate inferior)
• "Interaction: the relationship between an object and its direct superior or subordinate (i.e. a superior/inferior pair)
• a direct interaction occurs when one object is on a level exactly one higher or one lower than the other (i.e., on a "tree, the two objects have a line between them)
• "Distance: the minimum number of connections between two objects, i.e., one less than the number of objects that need to be "crossed" to trace a "path from one object to another
• Span: a "qualitative description of the width of a level when diagrammed, i.e., the number of subordinates an object has

In a mathematical context (in "graph theory), the "general terminology used is different.

Most hierarchies use a more specific vocabulary pertaining to their subject, but the idea behind them is the same. For example, with "data structures, objects are known as "nodes, superiors are called "parents and subordinates are called "children. In a business setting, a superior is a "supervisor/boss and a peer is a "colleague.

### Degree of branching

"Degree of "branching refers to the number of direct subordinates or children an object has (in graph theory, equivalent to the number of other "vertices connected to via outgoing arcs, in a directed graph) a node has). Hierarchies can be categorized based on the "maximum degree", the highest degree present in the system as a whole. Categorization in this way yields two broad classes: linear and branching.

In a linear hierarchy, the maximum degree is 1.[1] In other words, all of the objects can be visualized in a lineup, and each object (excluding the top and bottom ones) has exactly one direct subordinate and one direct superior. Note that this is referring to the objects and not the levels; every hierarchy has this property with respect to levels, but normally each level can have an infinite number of objects. An example of a linear hierarchy is the "hierarchy of life.

In a branching hierarchy, one or more objects has a degree of 2 or more (and therefore the minimum degree is 2 or higher).[1] For many people, the word "hierarchy" automatically evokes an image of a branching hierarchy.[1] Branching hierarchies are present within numerous systems, including "organizations and "classification schemes. The broad category of branching hierarchies can be further subdivided based on the degree.

A flat hierarchy is a branching hierarchy in which the maximum degree approaches infinity, i.e., that has a wide span.[2] Most often, systems intuitively regarded as hierarchical have at most a moderate span. Therefore, a flat hierarchy is often not viewed as a hierarchy at all. For example, "diamonds and "graphite are flat hierarchies of numerous "carbon atoms which can be further decomposed into subatomic particles.

An overlapping hierarchy is a branching hierarchy in which at least one object has two parent objects.[1] For example, a "graduate student can have two "co-supervisors to whom the student reports directly and equally, and who have the same level of authority within the "university hierarchy (i.e., they have the same "position or "tenure status.

## History of the term

Possibly the first use of the English word "hierarchy" cited by the "Oxford English Dictionary was in 1880, when it was used in reference to the three orders of three angels as depicted by "Pseudo-Dionysius the Areopagite (5th–6th centuries). Pseudo-Dionysius used the related "Greek word (ἱεραρχία hierarchia) both in reference to the "celestial hierarchy and the "ecclesiastical hierarchy.[3] The Greek term ἱεραρχία means "rule by priests" (from ἱεράρχης hierarches, meaning "president of sacred rites, high-priest"[4] and that from ἱερεύς hiereus, "priest"[5] and ἀρχή arche, amongst others "first place or power, rule"[6]), and Dionysius is credited with first use of it as an abstract noun. Since hierarchical churches, such as the "Roman Catholic (see "Catholic Church hierarchy) and "Eastern Orthodox churches, had tables of organization that were "hierarchical" in the modern sense of the word (traditionally with "God as the pinnacle or head of the hierarchy), the term came to refer to similar organizational methods in "secular settings.

## Visualization

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"Maslow's hierarchy of human needs. This is an example of a hierarchy visualized with a triangle diagram.

A hierarchy is typically depicted as a "pyramid, where the height of a level represents that level's status and width of a level represents the quantity of items at that level relative to the whole. For example, the few "Directors of a company could be at the "apex, and the "base could be thousands of people who have no subordinates.

These pyramids are typically diagrammed with a "tree or "triangle "diagram (but note that not all triangle/pyramid diagrams are hierarchical, for example, the 1992 "USDA food guide pyramid), both of which serve to emphasize the size differences between the levels. An example of a triangle diagram appears to the right. An "organizational chart is the diagram of a hierarchy within an "organization, and is depicted in tree form below.

More recently, as computers have allowed the storage and navigation of ever larger data sets, various methods have been developed to represent hierarchies in a manner that makes more efficient use of the available space on a computer's screen. Examples include fractal maps, "TreeMaps and "Radial Trees.

## Visual hierarchy

In the design field, mainly graphic design, successful layouts and formatting of the content on documents are heavily dependent on the rules of "visual hierarchy. Visual hierarchy is also important for proper organization of files on computers.

An example of visually representing hierarchy is through the Nested clusters. The Nested clusters represents hierarchical relationships by using layers of information. The child element is within the parent element, such as in a "Venn diagram. This structure of representing hierarchy is most effective in representing simple relationships. For example, when directing someone to open a file on a computer desktop, one may first direct them towards the main folder, then the subfolders within the main folder. They will keep opening files within the folders until the designated file is located.

For more complicated hierarchies, the stair structure represents hierarchical relationships through the use of visual stacking. Visually imagine the top of a downward staircase beginning at the left and descending on the right. The child elements are towards the bottom of the stairs and the parent elements are at the top. This structure is effective when representing more complicated hierarchies where steps are not placed in obvious sequences. Further steps are concealed unless all of the steps are revealed in sequence. In the computer desktop example, a file that is being sought after can only be found once another file is opened. The link for the desired file is within another document. All the steps must be completed until the final destination is reached.

## Informal representation

In plain English, a hierarchy can be thought of as a "set in which:[1]

1. No element is superior to itself, and
2. One element, the hierarch, is superior to all of the other elements in the set.

The first requirement is also interpreted to mean that a hierarchy can have no "circular relationships; the association between two objects is always "transitive. The second requirement asserts that a hierarchy must have a leader or "root that is common to all of the objects.

## Mathematical representation

Mathematically, in its most general form, a hierarchy is a "partially ordered set or poset.[7] The system in this case is the entire poset, which is constituted of elements. Within this system, each element shares a particular unambiguous property. Objects with the same property value are grouped together, and each of those resulting levels is referred to as a "class.

"Hierarchy" is particularly used to refer to a poset in which the classes are organized in terms of increasing complexity. Operations such as addition, subtraction, multiplication and division are often performed in a certain sequence or order. Usually, addition and subtraction are performed after multiplication and division has already been applied to a problem. The use of parenthesis is also a representation of hierarchy, for they show which operation is to be done prior to the following ones. For example: (2 + 5) × (7 - 4). In this problem, typically one would multiply 5 by 7 first, based on the rules of mathematical hierarchy. But when the parentheses are placed, one will know to do the operations within the parentheses first before continuing on with the problem. These rules are largely dominant in algebraic problems, ones that include several steps in order to solve. The use of hierarchy in mathematics is beneficial in order to quickly and efficiently solve a problem without having to go through the process of slowly dissecting the problem. Most of these rules are now known as the proper way into solving certain equations.

## Subtypes

### Nested hierarchy

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"Matryoshka dolls, also known as nesting dolls or Russian dolls. Each doll is encompassed inside another until the smallest one is reached. This is the concept of nesting. When the concept is applied to "sets, the resulting ordering is a nested hierarchy.

A nested hierarchy or inclusion hierarchy is a hierarchical ordering of "nested sets.[8] The concept of nesting is exemplified in Russian "matryoshka dolls. Each doll is encompassed by another doll, all the way to the outer doll. The outer doll holds all of the inner dolls, the next outer doll holds all the remaining inner dolls, and so on. Matryoshkas represent a nested hierarchy where each level contains only one object, i.e., there is only one of each size of doll; a generalized nested hierarchy allows for multiple objects within levels but with each object having only one parent at each level. The general concept is both demonstrated and mathematically formulated in the following example:

${\displaystyle {\text{square}}\subset {\text{quadrilateral}}\subset {\text{polygon}}\subset {\text{shape}}\,}$

A square can always also be referred to as a quadrilateral, polygon or shape. In this way, it is a hierarchy. However, consider the set of polygons using this classification. A square can only be a quadrilateral; it can never be a "triangle, "hexagon, etc.

Nested hierarchies are the organizational schemes behind "taxonomies and systematic classifications. For example, using the original "Linnaean taxonomy (the version he laid out in the 10th edition of "Systema Naturae), a human can be formulated as:[9]

${\displaystyle {\text{H. sapiens}}\subset {\text{Homo}}\subset {\text{Primates}}\subset {\text{Mammalia}}\subset {\text{Animalia}}}$

Taxonomies may change frequently (as seen in "biological taxonomy), but the underlying concept of nested hierarchies is always the same.

In many programming taxonomies and syntax models (as well as fractals in mathematics), nested hierarchies, including Russian dolls, are also used to illustrate the properties of "self-similarity and "recursion. Recursion itself is included as a subset of hierarchical programming, and recursive thinking can be synonymous with a form of hierarchical thinking and logic.[10]

#### Containment hierarchy

A containment hierarchy is a direct extrapolation of the nested hierarchy concept. All of the ordered sets are still nested, but every set must be ""strict"—no two sets can be identical. The shapes example above can be modified to demonstrate this:

${\displaystyle {\text{square}}\subsetneq {\text{quadrilateral}}\subsetneq {\text{polygon}}\subsetneq {\text{shape}}\,}$

The notation ${\displaystyle x\subsetneq y\,}$ means x is a subset of y but is not equal to y.

A general example of a containment hierarchy is demonstrated in "class inheritance in "object-oriented programming.

Two types of containment hierarchies are the subsumptive containment hierarchy and the compositional containment hierarchy. A subsumptive hierarchy "subsumes" its children, and a compositional hierarchy is "composed" of its children. A hierarchy can also be both subsumptive and compositional["example needed].[11]

##### Subsumptive containment hierarchy

A "subsumptive containment hierarchy is a classification of object classes from the general to the specific. Other names for this type of hierarchy are "taxonomic hierarchy" and ""IS-A hierarchy".[7][12][13] The last term describes the relationship between each level—a lower-level object "is a" member of the higher class. The taxonomical structure outlined above is a subsumptive containment hierarchy. Using again the example of Linnaean taxonomy, it can be seen that an object that is part of the level Mammalia "is a" member of the level Animalia; more specifically, a human "is a" primate, a primate "is a" mammal, and so on. A subsumptive hierarchy can also be defined abstractly as a hierarchy of ""concepts".[13] For example, with the Linnaean hierarchy outlined above, an entity name like Animalia is a way to group all the species that fit the conceptualization of an animal.

##### Compositional containment hierarchy

A compositional containment hierarchy is an ordering of the parts that make up a system—the system is "composed" of these parts.[14] Most engineered structures, whether natural or artificial, can be broken down in this manner.

The compositional hierarchy that every person encounters at every moment is the "hierarchy of life. Every person can be reduced to "organ systems, which are composed of "organs, which are composed of "tissues, which are composed of "cells, which are composed of "molecules, which are composed of "atoms. In fact, the last two levels apply to all "matter, at least at the "macroscopic scale. Moreover, each of these levels inherit all the properties of their children.

In this particular example, there are also "emergent properties—functions that are not seen at the lower level (e.g., "cognition is not a property of "neurons but is of the "brain)—and a scalar quality (molecules are bigger than atoms, cells are bigger than molecules, etc.). Both of these concepts commonly exist in compositional hierarchies, but they are not a required general property. These level hierarchies are characterized by bi-directional "causation.[8] Upward causation involves lower-level entities causing some property of a higher level entity; children entities may interact to yield parent entities, and parents are composed at least partly by their children. "Downward causation refers to the effect that the incorporation of entity x into a higher-level entity can have on x's properties and interactions. Furthermore, the entities found at each level are "autonomous.

## Contexts and applications

Almost every system of organization applied to the world is arranged hierarchically.[15] By their common definitions, every "nation has a government and every government is hierarchical.[16][17] Socioeconomic systems are stratified into a social hierarchy (the "social stratification of societies), and all "systematic classification schemes ("taxonomies) are hierarchical. Most "organized religions, regardless of their internal governance structures, operate as a hierarchy under "God. Many "Christian denominations have an "autocephalous "ecclesiastical hierarchy of leadership. Families are viewed as a hierarchical structure in terms of "cousinship (e.g., first cousin once removed, second cousin, etc.), "ancestry (as depicted in a "family tree) and "inheritance ("succession and "heirship). All the requisites of a well-rounded life and "lifestyle can be organized using "Maslow's hierarchy of human needs. "Learning must often follow a hierarchical scheme—to learn "differential equations one must first learn "calculus; to learn calculus one must first learn "elementary algebra; and so on. Even "nature itself has its own hierarchies, as numerous schemes such as "Linnaean taxonomy, the "organization of life, and "biomass pyramids attempt to document. Hierarchies are so infused into daily life that they are viewed as trivial.[1][15]

While the above examples are often clearly depicted in a hierarchical form and are classic examples, hierarchies exist in numerous systems where this branching structure is not immediately apparent. For example, most "postal code systems are hierarchical. Using the "Canadian postal code system as an example, the top level's binding concept is the ""postal district", and consists of 18 objects (letters). The next level down is the "zone", where the objects are the digits 0–9. This is an example of an overlapping hierarchy, because each of these 10 objects has 18 parents. The hierarchy continues downward to generate, in theory, 7,200,000 unique codes of the format A0A 0A0 (the second and third letter position allow 20 objects each). Most "library classification systems are also hierarchical. The "Dewey Decimal System is regarded as infinitely hierarchical because there is no finite bound on the number of digits can be used after the decimal point.[18]

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A simple "organizational hierarchy depicted in the form of a "tree. Diagrams like this are called "organizational charts.

### Organizations

"Organizations can be structured as a "dominance hierarchy. In an organizational hierarchy, there is a single person or group with the most "power and "authority, and each subsequent level represents a lesser authority. Most organizations are structured in this manner, including "governments, "companies, "militia and "organized religions. The units or persons within an organization are depicted hierarchically in an "organizational chart.

In a "reverse hierarchy, the conceptual "pyramid of authority is turned upside-down, so that the apex is at the bottom and the base is at the top. This mode represents the idea that members of the higher rankings are responsible for the members of the lower rankings.

### Life

Empirically, we observe in nature a large proportion of the (complex) biological systems, they exhibit hierarchic structure. On theoretical grounds we could expect complex systems to be hierarchies in a world in which complexity had to evolve from simplicity. "System hierarchies analysis performed in the 1950s,[19][20] laid the empirical foundations for a "field that would be, from 1980's, hierarchical ecology.[21][22][23][24][25]

The theoretical foundations are summarized by Thermodynamics. When "biological systems are modeled as "physical systems, in its most general abstraction, they are "thermodynamic open systems that exhibit "self-organised behavior, and the "set/subset relations between "dissipative structures can be characterized in an hierarchy.

### Computer graphic imaging

"CGI and "computer animation "programs mostly use hierarchies for models. On a "3D "model of a "human for example, the "chest is a "parent of the upper left arm, which is a parent of the lower left arm, which is a parent of the "hand. This is used in "modeling and "animation for almost everything built as a 3D "digital model.

### Linguistics

Many grammatical theories, such as "phrase-structure grammar, involve hierarchy.

"Direct–inverse languages such as "Cree and "Mapudungun distinguish subject and object on "verbs not by different subject and object markers, but via a hierarchy of persons.

In this system, the three (or four with "Algonquian languages) persons are placed in a hierarchy of "salience. To distinguish which is subject and which object, inverse markers are used if the object outranks the subject.

### Music

The structure of a musical composition is often understood hierarchically (for example by "Heinrich Schenker (1768–1835, see "Schenkerian analysis), and in the (1985) "Generative Theory of Tonal Music, by composer "Fred Lerdahl and linguist Ray "Jackendoff). The sum of all notes in a piece is understood to be an all-inclusive surface, which can be reduced to successively more sparse and more fundamental types of motion. The levels of structure that operate in Schenker's theory are the foreground, which is seen in all the details of the musical score; the middle ground, which is roughly a summary of an essential contrapuntal progression and voice-leading; and the background or "Ursatz, which is one of only a few basic "long-range counterpoint" structures that are shared in the gamut of tonal music literature.

The "pitches and "form of "tonal music are organized hierarchically, all pitches deriving their importance from their relationship to a "tonic "key, and secondary themes in other keys are brought back to the tonic in a recapitulation of the primary theme. "Susan McClary connects this specifically in the "sonata-allegro form to the feminist hierarchy of gender (see above) in her book Feminine Endings, even pointing out that primary themes were often previously called "masculine" and secondary themes "feminine."

### Ethics, behavioral psychology, philosophies of identity

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Career-oriented purposes can be diagrammed using a hierarchy describing how less important actions support a larger goal.

In "ethics, various "virtues are enumerated and sometimes organized hierarchically according to certain brands of "virtue theory.

In some of these random examples, there is an asymmetry of 'compositional' significance between levels of structure, so that small parts of the whole hierarchical array depend, for their meaning, on their membership in larger parts.There is a hierarchy of activities in human life: productive activity serves or is guided by the moral life; the moral life is guided by practical reason; practical reason (used in moral and political life) serves contemplative reason (whereby we contemplate God). Practical reason sets aside time and resources for contemplative reason.

In the work of diverse theorists such as "William James (1842–1910), "Michel Foucault (1926–1984) and "Hayden White, important critiques of hierarchical "epistemology are advanced. James famously asserts in his work "Radical Empiricism" that clear distinctions of type and category are a constant but unwritten goal of scientific reasoning, so that when they are discovered, success is declared. But if aspects of the world are organized differently, involving inherent and intractable ambiguities, then scientific questions are often considered unresolved.

Hierarchy in ethics emerged in Western Europe, West Asia and North Africa around the 1600s. In this aspect, the term hierarchy refers to how distinguishable they are from real to unreal. "Feminists, "Marxists, "anarchists, "communists, "critical theorists and others, all of whom have multiple interpretations, criticize the hierarchies commonly found within human society, especially in social relationships. Hierarchies are present in all parts of society: in businesses, schools, families, etc. These relationships are often viewed as necessary. Entities that stand in hierarchical arrangements are animals, humans, plants, etc. In some["which?] cultures, God can also be an addition to this hierarchy. However, feminists, Marxists, critical theorists, and others analyze hierarchy in terms of the values and power that it arbitrarily assigns to one group over another. Hierarchical ethics offers a way of logical reasoning that is compatible with religious commitments. In some["which?] cultures, there is hierarchy within humanity: The man in a family is above the woman, and children are after, and in social classes there might be a hierarchy as follows: king, civic officials, craftsmen, unskilled workers.

## Footnotes

1. "Dawkins, Richard (1976). Bateson, Paul Patrick Gordon; Hinde, Robert A., eds. Hierarchical organization: a candidate principle for ethology. Growing points in ethology: based on a conference sponsored by St. John's College and King's College, Cambridge. Cambridge, England: Cambridge University Press. pp. 7–54. "ISBN "0-521-29086-4.
2. ^ a b Simon, Herbert A. (12 December 1962). "The Architecture of Complexity". "Proc. Am. Philos. Soc. Philadelphia, Pennsylvania: "American Philosophical Society. 106 (6): 467–482. "CiteSeerX . "ISSN 0003-049X. "JSTOR 985254.
3. ^ CATHOLIC ENCYCLOPEDIA: Hierarchy
4. ^ ἱεράρχης, Henry George Liddell, Robert Scott, A Greek-English Lexicon, on Perseus Digital Library
5. ^ ἱερεύς, Henry George Liddell, Robert Scott, A Greek-English Lexicon, on Perseus Digital Library
6. ^ ἀρχή, Henry George Liddell, Robert Scott, A Greek-English Lexicon, on Perseus Digital Library
7. ^ a b Lehmann, Fritz (1996). Eklund, Peter G.; Ellis, Gerard; Mann, Graham, eds. Big Posets of Participatings and Thematic Roles. Conceptual structures: knowledge representation as interlingua—4th International Conference on Conceptual Structures, ICCS '96, Sydney, Australia, August 19–22, 1996—proceedings. Lecture Notes in Artificial Intelligence 115. Germany: Springer. pp. 50–74. "ISBN "3-540-61534-2.
8. ^ a b Lane, David (2006). "Hierarchy, Complexity, Society". In Pumain, Denise. Hierarchy in Natural and Social Sciences. New York, New York: "Springer-Verlag. pp. 81–120. "ISBN "978-1-4020-4126-6.
9. ^ "Linnaei, Carl von (1959). Systema naturae per regna tria naturae :secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis (in Latin) (10th ed.). "Stockholm: Impensis Direct. "ISBN "0-665-53008-0. Retrieved 2011-09-24.
10. ^ Corballis, Michael (2011). The Recursive Mind. Princeton University Press. "ISBN "978-0691145471.
11. ^ Kopisch, Manfred; Günther, Andreas (1992). "Configuration of a passenger aircraft cabin based on conceptual hierarchy, constraints and flexible control". In Belli, Fevzi. Industrial and Engineering Applications of Artificial Intelligence and Expert Systems. Industrial and engineering applications of artificial intelligence and expert systems: 5th international conference, IEA/AIE-92, Paderborn, Germany, June 9–12, 1992 : proceedings. Lecture Notes in Computer Science Series. 602. "Springer. pp. 424–427. "doi:10.1007/BFb0024994. "ISBN "3-540-55601-X. "ISSN 0302-9743.
12. ^ "Compositional hierarchy". WebSphere Transformation Extender Design Studio. Retrieved 9 October 2009.
13. ^ a b Funke, Birger; Sebastian, Hans-Jürgen (1999). "An advanced modeling environment based on a hybrid AI-OR approach". In Polis, Michael P.; Dontchev, Asen L.; Kall, Peter; Lascieka, Irena; Olbrot, Andrzej W. Systems modelling and optimization: proceedings of the 18th IFIP TC7 conference. Research notes in mathematics series. 396. "CRC Press. pp. 366–75. "ISBN "978-0-8493-0607-5.
14. ^ Parsons, David (2002). Object Oriented Programming in C++. Cengage Learning. pp. 110–185. "ISBN "0-8264-5428-3.
15. ^ a b Kulish, V. V. (2002). Hierarchical Methods: Hierarchy and hierarchical asymptotic methods in electrodynamics. 1. "Springer. pp. xvii–xx; 49–71. "ISBN "1-4020-0757-4.
16. ^ "government". Compact "Oxford English Dictionary. 1991. "ISBN "978-0-19-861022-9.
17. ^ "nation". Compact "Oxford English Dictionary. 1991. "ISBN "978-0-19-861022-9.
18. ^ Walker, Randy (May–June 2009). "Tracking Nuclear Sources" (PDF). wellservicingmagazine.com: 28–30. See also "Wikipedia article.
19. ^ Evans 1951
20. ^ Evans 1956
21. ^ Margalef 1975
22. ^ O'Neill 1986
23. ^ Wicken & Ulanowicz 1988
24. ^ Pumain 2006
25. ^ Jordan & Jørgensen 2012