Increment theorem

In non-standard analysis, a field of mathematics, the increment theorem states the following: Suppose a function y = f(x) is differentiable at x and that Δx is infinitesimal. Then

\Delta y = f'(x)\,\Delta x + \varepsilon\, \Delta x\,

for some infinitesimal ε, where

\Delta y=f(x+\Delta x)-f(x).\,

If $\scriptstyle\Delta x\not=0$ then we may write

\frac{\Delta y}{\Delta x} = f'(x)+\varepsilon,

which implies that $\scriptstyle\frac{\Delta y}{\Delta x}\approx f'(x)$ , or in other words that $\scriptstyle \frac{\Delta y}{\Delta x}$ is infinitely close to $\scriptstyle f'(x)\,$ , or $\scriptstyle f'(x)\,$ is the standard part of $\scriptstyle \frac{\Delta y}{\Delta x}$ .

References

Howard Jerome Keisler: Elementary Calculus: An Infinitesimal Approach. First edition 1976; 2nd edition 1986. This book is now out of print. The publisher has reverted the copyright to the author, who has made available the 2nd edition in .pdf format available for downloading at http://www.math.wisc.edu/~keisler/calc.html
Robinson, Abraham (1996). Non-standard analysis (Revised ed.). Princeton University Press. ISBN 0-691-04490-2.

Infinitesimals

History	Adequality Leibniz's notation Integral symbol Criticism of non-standard analysis The Analyst The Method of Mechanical Theorems Cavalieri's principle Method of indivisibles

Related branches	Non-standard analysis Non-standard calculus Internal set theory Synthetic differential geometry Constructive non-standard 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

Scientists	Gottfried Wilhelm Leibniz Abraham Robinson Pierre de Fermat Augustin-Louis Cauchy Leonhard Euler

Textbooks	Analyse des Infiniment Petits Elementary Calculus Cours d'Analyse

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Increment theorem

See also

References