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Anti-Derivative of a Function
Anti-Derivative of a FunctionWhen considering the average value of a function on a small closed interval Δx, there also exist a mean function value f(ξ) lying on the curve of the function f(x). When the length of subintervals approaching zero, the mean function value of a function on the closed interval Δx will be approaching to f(x) also. Therefore the mean function value of the definite integral of a function f(x) on an infinitesimal interval, Δx is equal to the value of function f(x). By expanding the definite integral of the function f(x) on an infinitesimal interval, Δx, the mean function value f(ξ) is then equal to the change of the integral with respect to x. When taking the limit as Δx tends to zero, function f(x) can therefore be interpreted as the differentiation of the indefinite integral. Imply Anti-Derivative of simple functionIndefinite integrals of Derivatives of Polynomialsimply imply imply imply Indefinite integrals of Derivatives of Trigonometric Functionsimply imply imply imply imply imply Indefinite integrals of Derivatives of Exponential and Logarithmic Functionsimply imply imply imply Indefinite integrals of Derivatives of Inverse Trigonometric Functionsimply imply imply imply imply imply ©sideway ID: 111100008 Last Updated: 1/12/2012 Revision: 1 Ref: References
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