Search results for "Classical example"

showing 3 items of 3 documents

Lying and falsely implicating

2005

Abstract This paper analyses falsely implicating from the point of view of Gricean theory of implicature, focusing on the Story of the Mate and the Captain which is a classical example of lying while saying the truth. It is argued that the case of falsely implicating should be included within a general definition of lying. Whether Particularised Conversational Implicatures (PCI), as in the Story of the Mate and the Captain, and Generalised Conversational Implicatures (GCI) behave differently with regard to falsely implicating is discussed with reference to Levinson's theory of presumptive meaning [Levinson, Stephen C., 2000. Presumptive Meanings. The Theory of Generalised Conversational Imp…

Linguistics and LanguageClassical examplePhilosophymedia_common.quotation_subjectTautology (grammar)AssertionScalar implicatureLanguage and LinguisticsLinguisticsIronyMeaning (philosophy of language)Artificial IntelligenceLyingImplicaturemedia_commonJournal of Pragmatics
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On a generalisation of Krein's example

2017

We generalise a classical example given by Krein in 1953. We compute the difference of the resolvents and the difference of the spectral projections explicitly. We further give a full description of the unitary invariants, i.e., of the spectrum and the multiplicity. Moreover, we observe a link between the difference of the spectral projections and Hankel operators.

Pure mathematicsClassical exampleApplied Mathematics010102 general mathematicsFOS: Physical sciencesMultiplicity (mathematics)Mathematical Physics (math-ph)01 natural sciencesUnitary stateFunctional Analysis (math.FA)Primary 47B15 Secondary 47A55 35J25 47A10 47B35Mathematics - Functional AnalysisMathematics - Spectral Theory0103 physical sciencesFOS: MathematicsComputer Science::Symbolic Computation010307 mathematical physics0101 mathematicsSpectral Theory (math.SP)Mathematical PhysicsAnalysisMathematicsJournal of Mathematical Analysis and Applications
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Dynamics of the Selkov oscillator.

2018

A classical example of a mathematical model for oscillations in a biological system is the Selkov oscillator, which is a simple description of glycolysis. It is a system of two ordinary differential equations which, when expressed in dimensionless variables, depends on two parameters. Surprisingly it appears that no complete rigorous analysis of the dynamics of this model has ever been given. In this paper several properties of the dynamics of solutions of the model are established. With a view to studying unbounded solutions a thorough analysis of the Poincar\'e compactification of the system is given. It is proved that for any values of the parameters there are solutions which tend to inf…

Statistics and ProbabilityPeriodicityQuantitative Biology - Subcellular ProcessesClassical exampleFOS: Physical sciencesDynamical Systems (math.DS)01 natural sciencesModels BiologicalGeneral Biochemistry Genetics and Molecular Biology010305 fluids & plasmassymbols.namesake0103 physical sciencesFOS: MathematicsPhysics - Biological PhysicsMathematics - Dynamical Systems0101 mathematicsSubcellular Processes (q-bio.SC)MathematicsGeneral Immunology and MicrobiologyCompactification (physics)Applied Mathematics010102 general mathematicsMathematical analysisGeneral MedicineMathematical ConceptsKineticsMonotone polygonBiological Physics (physics.bio-ph)FOS: Biological sciencesModeling and SimulationBounded functionOrdinary differential equationPoincaré conjecturesymbolsGeneral Agricultural and Biological SciencesGlycolysisDimensionless quantityMathematical biosciences
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