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Analogy is a comparison or correspondence between two things (or two groups of things) because of a third element that they are considered to share.[1]
In logic, it is an inference or an argument from one particular to another particular, as opposed to deduction, induction, and abduction. It is also used of where at least one of the premises, or the conclusion, is general rather than particular in nature. It has the general form A is to B as C is to D.
In a broader sense, analogical reasoning is a cognitive process of transferring some information or meaning of a particular subject (the analog, or source) onto another (the target); and also the linguistic expression corresponding to such a process. The term analogy can also refer to the relation between the source and the target themselves, which is often (though not always) a similarity, as in the biological notion of analogy.
Analogy plays a significant role in human thought processes. It has been argued that analogy lies at "the core of cognition".[2]
Etymology
The English word analogy derives from the Latinanalogia, itself derived from the Greekἀναλογία, "proportion", from ana- "upon, according to" [also "again", "anew"] + logos "ratio" [also "word, speech, reckoning"].[3][4]
The concepts of association, comparison, correspondence, mathematical and morphological homology, homomorphism, iconicity, isomorphism, metaphor, resemblance, and similarity are closely related to analogy. In cognitive linguistics, the notion of conceptual metaphor may be equivalent to that of analogy. Analogy is also a basis for any comparative arguments as well as experiments whose results are transmitted to objects that have been not under examination (e.g., experiments on rats when results are applied to humans).
Analogy has been studied and discussed since classical antiquity by philosophers, scientists, theologists and lawyers. The last few decades have shown a renewed interest in analogy, most notably in cognitive science.
Aquinas made a distinction between equivocal, univocal and analogical terms, the last being those like healthy that have different but related meanings. Not only a person can be "healthy", but also the food that is good for health (see the contemporary distinction between polysemy and homonymy). [citation needed]
Thomas Cajetan wrote an influential treatise on analogy. In all of these cases, the wide Platonic and Aristotelian notion of analogy was preserved.
Cajetan named several kinds of analogy that had been used but previously unnamed, particularly: [7]
Analogy of attribution (analogia attributionis) or improper proportionality, e.g., "This food is healthy."
Analogy of proportionality (analogia proportionalitatis) or proper proportionality, e.g., "2 is to 1 as 4 is to 2", or "the goodness of humans is relative to their essence as the goodness of God is relative to God's essence."[8]
In ancient Greek the word αναλογια (analogia) originally meant proportionality, in the mathematical sense, and it was indeed sometimes translated to Latin as proportio.[citation needed] Analogy was understood as identity of relation between any two ordered pairs, whether of mathematical nature or not.
Analogy and abstraction are different cognitive processes, and analogy is often an easier one. This analogy is not comparing all the properties between a hand and a foot, but rather comparing the relationship between a hand and its palm to a foot and its sole.[9] While a hand and a foot have many dissimilarities, the analogy focuses on their similarity in having an inner surface.
The same notion of analogy was used in the US-based SAT college admission tests, that included "analogy questions" in the form "A is to B as C is to what?" For example, "Hand is to palm as foot is to ____?" These questions were usually given in the Aristotelian format: HAND : PALM : : FOOT : ____ While most competent English speakers will immediately give the right answer to the analogy question (sole), it is more difficult to identify and describe the exact relation that holds both between pairs such as hand and palm, and between foot and sole. This relation is not apparent in some lexical definitions of palm and sole, where the former is defined as the inner surface of the hand, and the latter as the underside of the foot.
Kant'sCritique of Judgment held to this notion of analogy, arguing that there can be exactly the same relation between two completely different objects.
Shared abstraction
Greek philosophers such as Plato and Aristotle used a wider notion of analogy. They saw analogy as a shared abstraction.[10] Analogous objects did not share necessarily a relation, but also an idea, a pattern, a regularity, an attribute, an effect or a philosophy. These authors also accepted that comparisons, metaphors and "images" (allegories) could be used as arguments, and sometimes they called them analogies. Analogies should also make those abstractions easier to understand and give confidence to those who use them.
James Francis Ross in Portraying Analogy (1982), the first substantive examination of the topic since Cajetan's De Nominum Analogia,[dubious – discuss] demonstrated that analogy is a systematic and universal feature of natural languages, with identifiable and law-like characteristics which explain how the meanings of words in a sentence are interdependent.
Special case of induction
On the contrary, Ibn Taymiyya,[11][12][13]Francis Bacon and later John Stuart Mill argued that analogy is simply a special case of induction.[10] In their view analogy is an inductive inference from common known attributes to another probable common attribute, which is known about only in the source of the analogy, in the following form:
Premises
a is C, D, E, F, G
b is C, D, E, F
Conclusion
b is probably G.
Shared structure
Contemporary cognitive scientists use a wide notion of analogy, extensionally close to that of Plato and Aristotle, but framed by Gentner's (1983) structure mapping theory.[14] The same idea of mapping between source and target is used by conceptual metaphor and conceptual blending theorists. Structure mapping theory concerns both psychology and computer science. According to this view, analogy depends on the mapping or alignment of the elements of source and target. The mapping takes place not only between objects, but also between relations of objects and between relations of relations. The whole mapping yields the assignment of a predicate or a relation to the target. Structure mapping theory has been applied and has found considerable confirmation in psychology. It has had reasonable success in computer science and artificial intelligence (see below). Some studies extended the approach to specific subjects, such as metaphor and similarity.[15]
An analogy can be stated using is to and as when representing the analogous relationship between two pairs of expressions, for example, "Smile is to mouth, as wink is to eye." In the field of mathematics and logic, this can be formalized with colon notation to represent the relationships, using single colon for ratio, and double colon for equality.[16]
In the field of testing, the colon notation of ratios and equality is often borrowed, so that the example above might be rendered, "Smile : mouth :: wink : eye" and pronounced the same way.[16][17]
Linguistics
An analogy can be the linguistic process that reduces word forms thought to break rules to more common forms that follow these rules. For example, the Englishverbhelp once had the preterite (simple past tense in English) holp and the past participle holpen. These old-fashioned forms have been discarded and replaced by helped by using the power of analogy (or by applying the more frequently used Verb-ed rule.) This is called morphological leveling. Analogies can sometimes create rule-breaking forms; one example is the American English past tense form of dive: dove, formed on analogy with words such as drive: drove.
Neologisms can also be formed by analogy with existing words. A good example is software, formed by analogy with hardware; other analogous neologisms such as firmware and vapourware have followed. Another example is the humorous[18] term underwhelm, formed by analogy with overwhelm.
Some people present analogy as an alternative to generative rules for explaining the productive formation of structures such as words. Others argue that they are in fact the same and that rules are analogies that have essentially become standard parts of the linguistic system, whereas clearer cases of analogy have simply not (yet) done so (e.g. Langacker 1987.445–447). This view agrees with the current views of analogy in cognitive science which are discussed above.
Analogy is also a term used in the Neogrammarian school of thought as a catch-all to describe any morphological change in a language that cannot be explained merely sound change or borrowing.
Science
Analogies are mainly used as a means of creating new ideas and hypotheses, or testing them, which is called a heuristic function of analogical reasoning.
Analogical arguments can also be probative, meaning that they serve as a means of proving the rightness of particular theses and theories. This application of analogical reasoning in science is debatable. Analogy can help prove important theories, especially in those kinds of science in which logical or empirical proof is not possible such as theology, philosophy or cosmology when it relates to those areas of the cosmos (the universe) that are beyond any data-based observation and knowledge about them stems from the human insight and thinking outside the senses.
Analogy can be used in theoretical and applied sciences in the form of models or simulations which can be considered as strong indications of probable correctness. Other, much weaker, analogies may also assist in understanding and describing nuanced or key functional behaviours of systems that are otherwise difficult to grasp or prove. For instance, an analogy used in physics textbooks compares electrical circuits to hydraulic circuits.[19] Another example is the analogue ear based on electrical, electronic or mechanical devices.
Mathematics
Some types of analogies can have a precise mathematical formulation through the concept of isomorphism. In detail, this means that if two mathematical structures are of the same type, an analogy between them can be thought of as a bijection which preserves some or all of the relevant structure. For example, and are isomorphic as vector spaces, but the complex numbers, , have more structure than does: is a field as well as a vector space.
Category theory takes the idea of mathematical analogy much further with the concept of functors. Given two categories C and D, a functor f from C to D can be thought of as an analogy between C and D, because f has to map objects of C to objects of D and arrows of C to arrows of D in such a way that the structure of their respective parts is preserved. This is similar to the structure mapping theory of analogy of Dedre Gentner, because it formalises the idea of analogy as a function which makes certain conditions true.
A computer algorithm has achieved human-level performance on multiple-choice analogy questions from the SAT test. The algorithm measures the similarity of relations between pairs of words (e.g., the similarity between the pairs HAND:PALM and FOOT:SOLE) by statistically analysing a large collection of text. It answers SAT questions by selecting the choice with the highest relational similarity.[20]
The analogical reasoning in the human mind is free of the false inferences plaguing conventional artificial intelligence models, (called systematicity). Steven Phillips and William H. Wilson[21][22] use category theory to mathematically demonstrate how such reasoning could arise naturally by using relationships between the internal arrows that keep the internal structures of the categories rather than the mere relationships between the objects (called "representational states"). Thus, the mind, and more intelligent AIs, may use analogies between domains whose internal structures transform naturally and reject those that do not.
Keith Holyoak and Paul Thagard (1997) developed their multiconstraint theory within structure mapping theory. They defend that the "coherence" of an analogy depends on structural consistency, semantic similarity and purpose. Structural consistency is the highest when the analogy is an isomorphism, although lower levels can be used as well. Similarity demands that the mapping connects similar elements and relationships between source and target, at any level of abstraction. It is the highest when there are identical relations and when connected elements have many identical attributes. An analogy achieves its purpose if it helps solve the problem at hand. The multiconstraint theory faces some difficulties when there are multiple sources, but these can be overcome.[10] Hummel and Holyoak (2005) recast the multiconstraint theory within a neural network architecture. A problem for the multiconstraint theory arises from its concept of similarity, which, in this respect, is not obviously different from analogy itself. Computer applications demand that there are some identical attributes or relations at some level of abstraction. The model was extended (Doumas, Hummel, and Sandhofer, 2008) to learn relations from unstructured examples (providing the only current account of how symbolic representations can be learned from examples).[23]
Mark Keane and Brayshaw (1988) developed their Incremental Analogy Machine (IAM) to include working memory constraints as well as structural, semantic and pragmatic constraints, so that a subset of the base analogue is selected and mapping from base to target occurs in series.[24][25]Empirical evidence shows that humans are better at using and creating analogies when the information is presented in an order where an item and its analogue are placed together..[26]
Eqaan Doug and his team[27] challenged the shared structure theory and mostly its applications in computer science. They argue that there is no clear line between perception, including high-level perception, and analogical thinking. In fact, analogy occurs not only after, but also before and at the same time as high-level perception. In high-level perception, humans make representations by selecting relevant information from low-level stimuli. Perception is necessary for analogy, but analogy is also necessary for high-level perception. Chalmers et al. concludes that analogy actually is high-level perception. Forbus et al. (1998) claim that this is only a metaphor.[28] It has been argued (Morrison and Dietrich 1995) that Hofstadter's and Gentner's groups do not defend opposite views, but are instead dealing with different aspects of analogy.[29]
Often a physical prototype is built to model and represent some other physical object. For example, wind tunnels are used to test scale models of wings and aircraft which are analogous to (correspond to) full-size wings and aircraft.
For example, the MONIAC (an analogue computer) used the flow of water in its pipes as an analogue to the flow of money in an economy.
Cybernetics
Where two or more biological or physical participants meet, they communicate and the stresses produced describe internal models of the participants. Pask in his conversation theory asserts an analogy that describes both similarities and differences between any pair of the participants' internal models or concepts exists.
History
In historical science, comparative historical analysis often uses the concept of analogy and analogical reasoning. Recent methods involving calculation operate on large document archives, allowing for analogical or corresponding terms from the past to be found as a response to random questions by users (e.g., Myanmar - Burma) [30] and explained.[31]
Morality
Analogical reasoning plays a very important part in morality. This may be because morality is supposed to be impartial and fair. If it is wrong to do something in a situation A, and situation B corresponds to A in all related features, then it is also wrong to perform that action in situation B. Moral particularism accepts such reasoning, instead of deduction and induction, since only the first can be used regardless of any moral principles.
Structure mapping, originally proposed by Dedre Gentner, is a theory in psychology that describes the psychological processes involved in reasoning through, and learning from, analogies.[32] More specifically, this theory aims to describe how familiar knowledge, or knowledge about a base domain, can be used to inform an individual's understanding of a less familiar idea, or a target domain.[33] According to this theory, individuals view their knowledge of ideas, or domains, as interconnected structures.[34] In other words, a domain is viewed as consisting of objects, their properties, and the relationships that characterise their interactions.[35] The process of analogy then involves:
Recognising similar structures between the base and target domains.
Finding deeper similarities by mapping other relationships of a base domain to the target domain.
Cross-checking those findings against existing knowledge of the target domain.[33][35]
In general, it has been found that people prefer analogies where the two systems correspond highly to each other (e.g. have similar relationships across the domains as opposed to just having similar objects across domains) when these people try to compare and contrast the systems. This is also known as the systematicity principle.[34]
An example that has been used to illustrate structure mapping theory comes from Gentner and Gentner (1983) and uses the base domain of flowing water and the target domain of electricity.[36] In a system of flowing water, the water is carried through pipes and the rate of water flow is determined by the pressure of the water towers or hills. This relationship corresponds to that of electricity flowing through a circuit. In a circuit, the electricity is carried through wires and the current, or rate of flow of electricity, is determined by the voltage, or electrical pressure. Given the similarity in structure, or structural alignment, between these domains, structure mapping theory would predict that relationships from one of these domains, would be inferred in the other using analogy.[35]
Children
Children do not always need prompting to make comparisons in order to learn abstract relationships. Eventually, children undergo a relational shift, after which they begin seeing similar relations across different situations instead of merely looking at matching objects.[37] This is critical in their cognitive development as continuing to focus on specific objects would reduce children's ability to learn abstract patterns and reason analogically.[37] Interestingly, some researchers have proposed that children's basic brain functions (i.e., working memory and inhibitory control) do not drive this relational shift. Instead, it is driven by their relational knowledge, such as having labels for the objects that make the relationships clearer(see previous section).[37] However, there is not enough evidence to determine whether the relational shift is actually because basic brain functions become better or relational knowledge becomes deeper.[35]
Additionally, research has identified several factors that may increase the likelihood that a child may spontaneously engage in comparison and learn an abstract relationship, without the need for prompts.[38] Comparison is more likely when the objects to be compared are close together in space and/or time, [38] are highly similar (although not so similar that they match, which interfere with identifying relationships),[35] or share common labels.
In law, analogy is a method of resolving issues on which there is no previous authority. The legal use of analogy is distinguished by the need to use a legally relevant basis for drawing an analogy between two situations. It may be applied to various forms of legal authority, including statutory law and case law.
In the civil law tradition, analogy is most typically used for filling gaps in a statutory scheme.[39] In the common law tradition, it is most typically used for extending the scope of precedent.[39] The use of analogy in both traditions is broadly described by the traditional maxim Ubi eadem est ratio, ibi idem ius (where the reason is the same, the law is the same).
Analogies as defined in rhetoric are a comparison between words, but an analogy more generally can also be used to illustrate and teach. To enlighten pupils on the relations between or within certain concepts, items or phenomena, a teacher may refer to other concepts, items or phenomena that pupils are more familiar with. It may help to create or clarify one theory (or theoretical model) via the workings of another theory (or theoretical model). Thus an analogy, as used in teaching, would be comparing a topic that students are already familiar with, with a new topic that is being introduced, so that students can get a better understanding of the new topic by relating back to existing knowledge. This can be particularly helpful when the analogy serves across different disciplines: indeed, there are various teaching innovations now emerging that use sight-based analogies for teaching and research across subjects such as science and the humanities.[40][41]
Shawn Glynn, a professor in the department of educational psychology and instructional technology at the University of Georgia, developed a theory on teaching with analogies and developed steps to explain the process of teaching with this method. The steps for teaching with analogies are as follows:
Step one is introducing the new topic that is about to be taught and giving some general knowledge on the subject.
Step two is reviewing the concept that the students already know to ensure they have the proper knowledge to assess the similarities between the two concepts.
Step three is finding relevant features within the analogy of the two concepts.
Step four is finding similarities between the two concepts so students are able to compare and contrast them in order to understand.
Step five is indicating where the analogy breaks down between the two concepts.
And finally, step six is drawing a conclusion about the analogy and comparing the new material with the already learned material. Typically this method is used to learn topics in science.[42]
In 1989, teacher Kerry Ruef began a program titled The Private Eye Project. It is a method of teaching that revolves around using analogies in the classroom to better explain topics. She thought of the idea to use analogies as a part of curriculum because she was observing objects once and she said, "my mind was noting what else each object reminded me of..." This led her to teach with the question, "what does [the subject or topic] remind you of?" The idea of comparing subjects and concepts led to the development of The Private Eye Project as a method of teaching.[43] The program is designed to build critical thinking skills with analogies as one of the main themes revolving around it. While Glynn focuses on using analogies to teach science, The Private Eye Project can be used for any subject including writing, math, art, social studies, and invention. It is now used by thousands of schools around the country.[44]
Religion
Catholicism
The Fourth Lateran Council of 1215 taught: For between creator and creature there can be noted no similarity so great that a greater dissimilarity cannot be seen between them.[45]
The theological exploration of this subject is called the analogia entis. The consequence of this theory is that all true statements concerning God (excluding the concrete details of Jesus' earthly life) are rough analogies, without implying any falsehood. Such analogical and true statements would include God is, God is Love, God is a consuming fire, God is near to all who call him, or God as Trinity, where being, love, fire, distance, number must be classed as analogies that allow human cognition of what is infinitely beyond positive or negative language.
The use of theological statements in syllogisms must take into account their analogical essence, in that every analogy breaks down when stretched beyond its intended meaning.
Doctrine of the Trinity
In traditional Christian doctrine, the Trinity is a Mystery of Faith that has been revealed, not something obvious or derivable from first principles or found in any thing in the created world.[46] Because of this, the use of analogies to understand the Trinity is common and perhaps necessary.
The Trinity is a combination of the words “tri,” meaning “three,” and “unity,” meaning “one.” The “Threeness” refers to the persons of the Trinity, while the “Oneness” refers to substance or being.[47]
"[...]truly the kiss[...]is common both to him who kisses and to him who is kissed. [...]If, as is properly understood, the Father is he who kisses, the Son he who is kissed, then it cannot be wrong to see in the kiss the Holy Spirit, for he is the imperturbable peace of the Father and the Son, their unshakable bond, their undivided love, their indivisible unity."
— St. Bernard of Clairveaux, Semons on Song of Songs, Sermon 8: The Holy Spirit, the Kiss of the Mouth
Many analogies have been used to explain the Trinity, however, all analogies fail when taken too far. Examples of these are the analogies that state that the Trinity is like water and its different states (solid, liquid, gas) or like an egg with its different parts (shell, yolk, and egg white). However, these analogies, if taken too far, could teach the heresies of modalism (water states) and partialism (parts of egg), which are contrary to the Christian understanding of the Trinity.[48]
Other analogies exist. The analogy of notes of a chord, say C major, is a sufficient analogy for the Trinity. The notes C, E, and G individually fill the whole of the “heard” space, but when all notes come together, we have a homogenized sound within the same space with distinctive, equal notes.[49] One more analogy used is one that uses the mythological dog, Cerberus, that guards the gates of Hades. While the dog itself is a single organism—speaking to its substance—Cerberus has different centers of awareness due to its three heads, each of which has the same dog nature.[50]
Protestantism
In some Protestant theology, "analogy" may itself be used analogously in terms, more in a sense of "rule" or "exemplar": for example the concept "analogia fidei" has been proposed as an alternative to the concept analogia entis but named analogously.
Islamic jurisprudence makes ample use of analogy as a means of making conclusions from outside sources of law. The bounds and rules employed to make analogical deduction vary greatly between madhhabs and to a lesser extent individual scholars. It is nonetheless a generally accepted source of law within jurisprudential epistemology, with the chief opposition to it forming the dhahiri (ostensiblist) school.
^Strumia, Alberto. "Analogy". Interdisciplinary Encyclogpedia of Religion and Science. Pontifical University of the Holy Cross. Retrieved 11 June 2023.
^Hallaq, Wael B. (1985–1986). "The Logic of Legal Reasoning in Religious and Non-Religious Cultures: The Case of Islamic Law and the Common Law". Cleveland State Law Review. 34: 79–96 [93–5].
^John F. Sowa; Arun K. Majumdar (2003). "Analogical reasoning". Conceptual Structures for Knowledge Creation and Communication, Proceedings of ICCS 2003. Berlin: Springer-Verlag. Archived from the original on 2010-04-05., pp. 16–36
^ abResearch and Education Association (June 1994). "2. Analogies". In Fogiel, M (ed.). Verbal Tutor for the SAT. Piscataway, New Jersey: Research & Education Assoc. pp. 84–86. ISBN978-0-87891-963-5. OCLC32747316. Retrieved 25 January 2018.
^Keane, M.T. and Brayshaw, M. (1988). The Incremental Analogical Machine: a computational model of analogy. In D. H. Sleeman (Ed). European working session on learning. (pp.53–62). London: Pitman.
^Keane, M.T. (1997). "What makes an analogy difficult? The effects of order and causal structure in analogical mapping". Journal of Experimental Psychology: Learning, Memory, and Cognition. 23 (4): 946–967. doi:10.1037/0278-7393.23.4.946. PMID9231438.
^Zhang, Y., Jatowt, A., Bhowmick, S., & Tanaka, K. (2015, July). Omnia mutantur, nihil interit: Connecting past with present by finding corresponding terms across time. In Proceedings of the 53rd Annual Meeting of the Association for Computational Linguistics and the 7th International Joint Conference on Natural Language Processing (Volume 1: Long Papers) (pp. 645-655). pdf
^Zhang, Yating, Adam Jatowt, and Katsumi Tanaka. "Towards understanding word embeddings: Automatically explaining similarity of terms." In 2016 IEEE international conference on big data (big data), pp. 823-832. IEEE, 2016. pdf
^Copan, Paul (2017). Dictionary of Christianity and Science. Zondervan. p. 664. ISBN978-0-310-49605-2.
^Copan, Paul (2017). Dictionary of Christianity and Science. Zondervan. p. 664. ISBN978-0-310-49605-2.
^Begbie, Jeremy (2000). Hearing God in C Major. Baker.
^Moreland, J. P.; Craig, William L. (2003). Philosophical Foundations for the Christian Worldview. Downers Grove, IL: IVP Academic.
References
Cajetan, Tommaso De Vio, (1498), De Nominum Analogia, P.N. Zammit (ed.), 1934, The Analogy of Names, Koren, Henry J. and Bushinski, Edward A (trans.), 1953, Pittsburgh: Duquesne University Press.
Gentner, D. (1983). Structure-mapping: A theoretical framework for analogy. Cognitive Science, 7, 155–170. (Reprinted in A. Collins & E. E. Smith (Eds.), Readings in cognitive science: A perspective from psychology and artificial intelligence. Palo Alto, CA: Kaufmann).
Keane, M.T. (1997). "What makes an analogy difficult? The effects of order and causal structure in analogical mapping". Journal of Experimental Psychology: Learning, Memory, and Cognition. 123 (4): 946–967. doi:10.1037/0278-7393.23.4.946. PMID9231438.
Little, J (2008). "The Role of Analogy in George Gamow's Derivation of Drop Energy". Technical Communication Quarterly. 17 (2): 1–19. doi:10.1080/10572250701878876. S2CID32910655.
Melandri, Enzo. La linea e il circolo. Studio logico-filosofico sull'analogia (1968), Quodlibet, Macerata 2004 prefazione di Giorgio Agamben.
Pessali, H.; Dalto, F. and Fernández, R. (2015). Analogies we suffer by: the case of the state as a household. In: Tae-Hee Jo; Zdravka Todorova (Org.). Advancing the Frontiers of Heterodox Economics: Essays in Honor of Frederic S. Lee. Nova Iorque: Routledge, p. 281-295.
Perelman, Ch, Olbrechts-Tyteca, L. (1969), The New Rhetoric: A Treatise on Argumentation, Notre Dame 1969.
Ross, J.F., (1982), Portraying Analogy. Cambridge: Cambridge University Press.
Ross, J.F. (October 1970). "Analogy and The Resolution of Some Cognitivity Problems". The Journal of Philosophy. 67 (20): 725–746. doi:10.2307/2024008. JSTOR2024008.
Ross, J.F. (September 1961). "Analogy as a Rule of Meaning for Religious Language". International Philosophical Quarterly. 1 (3): 468–502. doi:10.5840/ipq19611356.
Ross, J.F., (1958), A Critical Analysis of the Theory of Analogy of St Thomas Aquinas, (Ann Arbor, MI: University Microfilms Inc).
Shelley, C. (2003). Multiple analogies in Science and Philosophy. Amsterdam/Philadelphia: John Benjamins Publishing Company.
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Arema FC U-21Nama lengkapArema Football Club U-21JulukanSingo Edan Muda(Young crazy lion)Berdiri11 Agustus 1987StadionStadion KanjuruhanPemilikPT Arema Aremania Bersatu Berprestasi IndonesiaDirektur TeknikJoko SusiloSitus webSitus web resmi klub Kostum kandang Kostum tandang Kostum ketiga Arema FC Tim utama Tim putri AkademiArema Arema FC U-21 adalah tim akademi yang berbasis di Malang, Jawa Timur dan berdiri di bawah Arema FC yang bermain di Liga 1. Sekarang mereka bermain di liga Elite Pr…
هذه المقالة يتيمة إذ تصل إليها مقالات أخرى قليلة جدًا. فضلًا، ساعد بإضافة وصلة إليها في مقالات متعلقة بها. (ديسمبر 2020) المجموعة الإقليمية للدرك الوطني الدولة الجزائر الإنشاء 23 أغسطس 1962 م النوع شـرطة قضـائية الدور عمليات متعددة المهام والظروف الحجم غير معلن عنه جزء من الدر…
Karl AbrahamLahir3 Mei 1877Bremen, Kekaisaran JermanMeninggalNot recognized as a date. Years must have 4 digits (use leading zeros for years < 1000). (aged Kesalahan ekspresi: Operator < tak terduga)Berlin, Republik WeimarKebangsaanJermanKarier ilmiahBidangPsikiatri Bagian ini adalah seri artikel tentangPsikoanalisis Konsep Psikoseksual perkembangan Tahap perkembangan psikososial Erikson Alam bawah sadar Freud Prasadar Kesadaran Apparatus psikis Id, ego dan super-ego Libido Teori driv…
Ini adalah nama Batak Toba, marganya adalah Pasaribu. Ahmad Zarnawi Pasaribu Wakil Bupati Padang LawasMasa jabatan10 Februari 2019 – 25 November 2021PresidenJoko WidodoGubernurEdy RahmayadiBupatiAli Sutan HarahapMasa jabatan10 Februari 2014 – 10 Februari 2019PresidenSusilo Bambang YudhoyonoJoko WidodoGubernurGatot Pujo NugrohoTengku Erry NuradiSabrina (Plh.)Eko Subowo (Pj)Edy RahmayadiBupatiAli Sutan Harahap Informasi pribadiLahir7 September 1976 (umur 47)Pasar Ujung B…
American baseball player and manager (born 1941) For other uses, see Bobby Cox (disambiguation). Baseball player Bobby CoxCox with the Braves in 2009Third baseman / ManagerBorn: (1941-05-21) May 21, 1941 (age 82)Tulsa, Oklahoma, U.S.Batted: RightThrew: RightMLB debutApril 14, 1968, for the New York YankeesLast MLB appearanceOctober 1, 1969, for the New York YankeesMLB statisticsBatting average.225Home runs9Runs batted in58Managerial record2,504–2,001Winning…
Questa voce sull'argomento stagioni delle società calcistiche italiane è solo un abbozzo. Contribuisci a migliorarla secondo le convenzioni di Wikipedia. Segui i suggerimenti del progetto di riferimento. Voce principale: Associazione Sportiva Dilettantistica Imperia. Unione Sportiva ImperiaStagione 1937-1938Sport calcio Squadra Imperia Allenatore Pietro Scevola Presidente Giuseppe Squillario Serie C7º posto nel girone eliminatorio C. 1936-1937 1938-1939 Si invita a seguire il modell…
Details of violin playing technique This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed.Find sources: Violin technique – news · newspapers · books · scholar · JSTOR (May 2020) (Learn how and when to remove this template message) Part of a series onViolin Violinists Fiddle Fiddlers History Musical styles Technique Acoustics Const…
Chinese policy goals proposed by Xi Jinping You can help expand this article with text translated from the corresponding article in Chinese. (March 2023) Click [show] for important translation instructions. Machine translation, like DeepL or Google Translate, is a useful starting point for translations, but translators must revise errors as necessary and confirm that the translation is accurate, rather than simply copy-pasting machine-translated text into the English Wikipedia. Consider add…
Matrix relating system inputs and outputs In control system theory, and various branches of engineering, a transfer function matrix, or just transfer matrix is a generalisation of the transfer functions of single-input single-output (SISO) systems to multiple-input and multiple-output (MIMO) systems.[1] The matrix relates the outputs of the system to its inputs. It is a particularly useful construction for linear time-invariant (LTI) systems because it can be expressed in terms of the s-…
Species of songbird native to New Guinea Not to be confused with Blackthroat, the Chinese bird Luscinia obscura. Black-throated robin Illustration by Keulemans, 1879 Conservation status Least Concern (IUCN 3.1)[1] Scientific classification Domain: Eukaryota Kingdom: Animalia Phylum: Chordata Class: Aves Order: Passeriformes Infraorder: Passerides Family: Petroicidae Genus: PlesiodryasMathews, 1920 Species: P. albonotata Binomial name Plesiodryas albonotata(Salvadori, 1875) Syn…
Pour les articles homonymes, voir capucin. Frères mineurs capucins Devise : Pax et bonum (Paix et bien) Ordre de droit pontifical Approbation pontificale 1528 par le pape Clément VII Institut apostolique Type ordre mendiant Règle Règle de saint François Structure et histoire Fondation 1525 Fondateur Matthieu de Baschi Abréviation O.F.M. Cap. Site web Site international Liste des ordres religieux Les Frères mineurs capucins (en latin : Ordo Fratrum Minorum Capuccinorum, abrégé …
Сенат Канадыангл. Senate of Canadaфр. Sénat du Canada 42-й созыв Тип Тип верхняя палата парламента Канады Руководство Спикер Сената Джордж Фьюри, Беспартийный с 3 декабря 2015 (2015-12-03) Лидер правительства в Сенате Питер Хардер, Беспартийный с 23 марта 2016 (2016-03-23) Структура Членов 105 Фракци…
烏克蘭總理Прем'єр-міністр України烏克蘭國徽現任杰尼斯·什米加尔自2020年3月4日任命者烏克蘭總統任期總統任命首任維托爾德·福金设立1991年11月后继职位無网站www.kmu.gov.ua/control/en/(英文) 乌克兰 乌克兰政府与政治系列条目 宪法 政府 总统 弗拉基米尔·泽连斯基 總統辦公室 国家安全与国防事务委员会 总统代表(英语:Representatives of the President of Ukraine) 总理…
Национальное аэрокосмическое агентство Азербайджана Штаб-квартира Баку, ул. С. Ахундова, AZ 1115 Локация Азербайджан Тип организации Космическое агентство Руководители Директор: Натиг Джавадов Первый заместитель генерального директора Тофик Сулейманов Основание Основ…