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Question

The Taylor series of a infinitely differentiable function \(f(x)\in\mathbb{C}\) at a single point \(a\in\mathbb{C}\) is defined as: [...]

Answer

\({\displaystyle f(a)=\sum _{n=0}^{\infty }{\frac {f^{(n)}(a)}{n!}}(x-a)^{n}}\)

where \(f^{(n)}(a)\) denotes the \(n\)th derivative of \(f\) evaluated at the point \(a\).
- The derivative of order zero of \(f\) is defined to be \(f\) itself and \((x − a)^{0}\) and \(0!\) are both defined to be 1.

Question

The Taylor series of a infinitely differentiable function \(f(x)\in\mathbb{C}\) at a single point \(a\in\mathbb{C}\) is defined as: [...]

Answer

Question

The Taylor series of a infinitely differentiable function \(f(x)\in\mathbb{C}\) at a single point \(a\in\mathbb{C}\) is defined as: [...]

Answer

\({\displaystyle f(a)=\sum _{n=0}^{\infty }{\frac {f^{(n)}(a)}{n!}}(x-a)^{n}}\)

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Definition of Taylor Series
The Taylor series of a infinitely differentiable function \(f(x)\in\mathbb{C}\) at a single point \(a\in\mathbb{C}\) is defined as: \({\displaystyle f(a)=\sum _{n=0}^{\infty }{\frac {f^{(n)}(a)}{n!}}(x-a)^{n}}\) where \(f^{(n)}(a)\) denotes the \(n\)th derivative of \(f\) evaluated at the point \(a\). - The derivative of order zero of \(f\) is defined to be \(f\) itself and \((x − a)^{0}\) and \(0!\) are both defined to be 1.

Summary

status	not learned	measured difficulty	37% [default]	last interval [days]
repetition number in this series	0	memorised on		scheduled repetition
scheduled repetition interval		last repetition or drill

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