Difference between revisions of "User:Temperal/The Problem Solver's Resource9"
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===Definition=== | ===Definition=== | ||
− | *<math>\frac{df(x)}{dx}=\lim_{x | + | *<math>\frac{df(x)}{dx}=\lim_{x\to x_0}\frac{f(x_0)-f(x)}{x_0-x}</math>, where <math>f(x)</math> is a function continuous in <math>L</math>, and <math>x_0</math> is an arbitrary constant such that <math>x_0\subset L</math>. |
*Multiple derivatives are taken by evaluating the innermost first, and can be notated as follows: <math>\frac{d^2f(x)}{dx^2}</math>. | *Multiple derivatives are taken by evaluating the innermost first, and can be notated as follows: <math>\frac{d^2f(x)}{dx^2}</math>. | ||
*The derivative of <math>f(x)</math> can also be expressed as <math>f'(x)</math>, or the <math>n</math>th derivative of <math>f(x)</math> can be expressed as <math>f^{(n)}(x)</math>. | *The derivative of <math>f(x)</math> can also be expressed as <math>f'(x)</math>, or the <math>n</math>th derivative of <math>f(x)</math> can be expressed as <math>f^{(n)}(x)</math>. | ||
+ | |||
===Basic Facts=== | ===Basic Facts=== | ||
*<math>\frac{df(x)\pm g(x)}{dx}=f'(x)\pm g'(x)</math> | *<math>\frac{df(x)\pm g(x)}{dx}=f'(x)\pm g'(x)</math> |
Revision as of 14:03, 7 October 2007
DerivativesThis page will cover derivatives and their applications, as well as some advanced limits. The Fundamental Theorem of Calculus is covered on the integral page. Definition
Basic FactsThe Power RuleRolle's TheoremIf is differentiable in the open interval , continuous in the closed interval , and if , then there is a point between and such that Extension: Mean Value TheoremIf is differentiable in the open interval and continuous in the closed interval , then there is a point between and such that . L'Hopital's Rule
Note that this inplies that for any . Taylor's FormulaLet be a point in the domain of the function , and suppose that (that is, the th derivative of ) exists in the neighborhood of (where is a nonnegative integer). For each in the neighborhood,
where is in between and . Applications
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