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9.2: Identidades matemáticas útiles

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    e , cos θ y sin θ

    \[e^{jθ} = \lim_{n\to \infty} \Bigl(1 + j\frac {θ} {n}\Bigr)^n = \sum_{n=0}^{\infty} {\frac {1} {n!}} (jθ)^n = \cos θ +j\sin θ \nonumber \]

    \[\cos θ = \sum_{n=0}^{\infty} \frac {(-1)^n} {(2n)!} θ^{2n} \nonumber \]

    \[\sin θ = \sum_{n=0}^{\infty} \frac {(-1)^n} {(2n+1)!} θ^{2n+1} \nonumber \]

    Identidades trigonométricas

    \[\sin^2 {θ} + \cos^2 {θ} = 1 \nonumber \]

    \[\sin (θ+φ) = \sin {θ} \cos {φ} + \cos {θ} \sin {φ} \nonumber \]

    \[\cos (θ+φ) = \cos {θ} \cos {φ} - \sin {θ} \sin {φ} \nonumber \]

    \[\sin (θ-φ) = \sin {θ} \cos {φ} - \cos {θ} \sin {φ} \nonumber \]

    \[\cos (θ-φ) = \cos {θ} \cos {φ} + \sin {θ} \sin {φ} \nonumber \]

    Ecuaciones de Euler

    \[e^{jθ} = \cos θ + j\sin θ \nonumber \]

    \[\sin θ = \frac {e^{jθ}-e^{-jθ}} {2j} \nonumber \]

    \[\cos θ = \frac {e^{jθ}+e^{-jθ}} {2} \nonumber \]

    Identidad de De Moivre

    \[(\cos θ +j\sin θ)^n = \cos {nθ} + j\sin {nθ} \nonumber \]

    Expansión Binomial

    \[(x+y)^N = \sum_{n=0}^{N} {\Bigl(\frac {N!} {(N-n)!n!} \Bigr)x^n y^{N-n}} \nonumber \]

    \[2^N = \sum_{n=0}^{N} {\Bigl(\frac {N!} {(N-n)!n!} \Bigr)} \nonumber \]

    Sumas geométricas

    \[\sum_{k=0}^{\infty} {az^k} = \frac {a} {1-z} ;|z| \lt 1 \nonumber \]

    \[\sum_{k=0}^{N-1} {az^k} = \frac {a\left(1-z^N\right)} {1-z} ;z \neq 1 \nonumber \]

    Serie de Taylor

    \[f(x) = \sum_{k=0}^{\infty} {f^{(k)}(a)\frac {(x-a)^k} {k!}} \nonumber \]

    (Serie de Maclaurin si a=0)

      This page titled 9.2: Identidades matemáticas útiles is shared under a CC BY 3.0 license and was authored, remixed, and/or curated by Louis Scharf (OpenStax CNX) via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.