Law of continuity

The law of continuity is a heuristic principle introduced by

infinitesimal calculus. The transfer principle provides a mathematical implementation of the law of continuity in the context of the hyperreal numbers

.

A related law of continuity concerning intersection numbers in geometry was promoted by Jean-Victor Poncelet in his "Traité des propriétés projectives des figures".^[2]^[3]

Leibniz's formulation

Leibniz expressed the law in the following terms in 1701:

In any supposed continuous transition, ending in any terminus, it is permissible to institute a general reasoning, in which the final terminus may also be included (Cum Prodiisset).^[4]

In a 1702 letter to French mathematician Pierre Varignon subtitled “Justification of the Infinitesimal Calculus by that of Ordinary Algebra," Leibniz adequately summed up the true meaning of his law, stating that "the rules of the finite are found to succeed in the infinite."^[5]

The law of continuity became important to Leibniz's justification and conceptualization of the infinitesimal calculus.

References

doi:10.1007/s10699-011-9223-1 See arxiv

^ Poncelet, Jean Victor. Traité des propriétés projectives des figures: T. 1. Ouvrage utile à ceux qui s' occupent des applications de la géométrie descriptive et d'opérations géométriques sur le terrain." (1865), pp. 13–14

^ Fulton, William. Introduction to intersection theory in algebraic geometry. No. 54. American Mathematical Soc., 1984, p. 1

^ Child, J. M. (ed.): The early mathematical manuscripts of Leibniz. Translated from the Latin texts published by Carl Immanuel Gerhardt with critical and historical notes by J. M. Child. Chicago-London: The Open Court Publishing Co., 1920.

^ Leibniz, Gottfried Wilhelm, and Leroy E. Loemker. Philosophical Papers and Letters. 2d ed. Dordrecht: D. Reidel, 1970, p. 544

v
t
e
Gottfried Wilhelm Leibniz
Mathematics and
philosophy

Alternating series test

Best of all possible worlds

Calculus controversy

Calculus ratiocinator

Characteristica universalis

Compossibility

Difference

Dynamism

Identity of indiscernibles

Individuation

Law of continuity

Leibniz wheel

Leibniz's gap

Leibniz's notation

Lingua generalis

Mathesis universalis

Pre-established harmony

Plenitude

Sufficient reason

Salva veritate

Theodicy

Transcendental law of homogeneity

Rationalism

Universal science

Vis viva

Well-founded phenomenon

Works

De Arte Combinatoria (1666)

Discourse on Metaphysics (1686)

New Essays on Human Understanding (1704)

Théodicée (1710)

Monadology (1714)

Leibniz–Clarke correspondence (1715–1716)

Category

v
t
e
Infinitesimals
History

Adequality

Leibniz's notation

Integral symbol

Criticism of nonstandard analysis

The Analyst

The Method of Mechanical Theorems

Cavalieri's principle

Related branches

Nonstandard analysis

Nonstandard calculus

Internal set theory

Synthetic differential geometry

Smooth infinitesimal analysis

Constructive nonstandard analysis

Infinitesimal strain theory (physics)

Formalizations

Differentials

Hyperreal numbers

Dual numbers

Surreal numbers

Individual concepts

Standard part function

Transfer principle

Hyperinteger

Increment theorem

Monad

Internal set

Levi-Civita field

Hyperfinite set

Law of continuity

Overspill

Microcontinuity

Transcendental law of homogeneity

Mathematicians

Gottfried Wilhelm Leibniz

Abraham Robinson

Pierre de Fermat

Augustin-Louis Cauchy

Leonhard Euler

Textbooks

Analyse des Infiniment Petits

Elementary Calculus

Cours d'Analyse

This article about the history of mathematics is a stub. You can help Wikipedia by expanding it.
v
t
e

Retrieved from "https://en.wikipedia.org/w/index.php?title=Law_of_continuity&oldid=1166901946"

[1] doi:10.1007/s10699-011-9223-1 See arxiv

[2] Poncelet, Jean Victor. Traité des propriétés projectives des figures: T. 1. Ouvrage utile à ceux qui s' occupent des applications de la géométrie descriptive et d'opérations géométriques sur le terrain." (1865), pp. 13–14

[3] Fulton, William. Introduction to intersection theory in algebraic geometry. No. 54. American Mathematical Soc., 1984, p. 1

[4] Child, J. M. (ed.): The early mathematical manuscripts of Leibniz. Translated from the Latin texts published by Carl Immanuel Gerhardt with critical and historical notes by J. M. Child. Chicago-London: The Open Court Publishing Co., 1920.

[5] Leibniz, Gottfried Wilhelm, and Leroy E. Loemker. Philosophical Papers and Letters. 2d ed. Dordrecht: D. Reidel, 1970, p. 544

[2]

[3]

[4]

[5]

Leibniz's formulation

See also

References