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Warning: this is an htmlized version!
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% (find-LATEX "2020-1-C2-int-pots-sen-cos.tex")
% (defun c () (interactive) (find-LATEXsh "lualatex -record 2020-1-C2-int-pots-sen-cos.tex" :end))
% (defun D () (interactive) (find-pdf-page "~/LATEX/2020-1-C2-int-pots-sen-cos.pdf"))
% (defun d () (interactive) (find-pdftools-page "~/LATEX/2020-1-C2-int-pots-sen-cos.pdf"))
% (defun e () (interactive) (find-LATEX "2020-1-C2-int-pots-sen-cos.tex"))
% (defun u () (interactive) (find-latex-upload-links "2020-1-C2-int-pots-sen-cos"))
% (defun v () (interactive) (find-2a '(e) '(d)) (g))
% (find-pdf-page "~/LATEX/2020-1-C2-int-pots-sen-cos.pdf")
% (find-sh0 "cp -v ~/LATEX/2020-1-C2-int-pots-sen-cos.pdf /tmp/")
% (find-sh0 "cp -v ~/LATEX/2020-1-C2-int-pots-sen-cos.pdf /tmp/pen/")
% file:///home/edrx/LATEX/2020-1-C2-int-pots-sen-cos.pdf
% file:///tmp/2020-1-C2-int-pots-sen-cos.pdf
% file:///tmp/pen/2020-1-C2-int-pots-sen-cos.pdf
% http://angg.twu.net/LATEX/2020-1-C2-int-pots-sen-cos.pdf
% (find-LATEX "2019.mk")
% (find-C2-aula-links "2020-1-C2-int-pots-sen-cos" "18" "ipsc")
% «.exemplo-1» (to "exemplo-1")
% «.exemplo-1-verif» (to "exemplo-1-verif")
% «.exemplo-2» (to "exemplo-2")
% «.exercicio-1» (to "exercicio-1")
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% (find-es "tex" "geometry")
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%
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% %L dofile "edrxtikz.lua" -- (find-LATEX "edrxtikz.lua")
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% (find-angg ".emacs" "c2q192")
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%
% «title» (to ".title")
\thispagestyle{empty}
\begin{center}
\vspace*{1.2cm}
{\bf \Large Cálculo 2 - 2020.1}
\bsk
Aula 18: Integrais de potências de senos e cossenos
\bsk
Eduardo Ochs - RCN/PURO/UFF
\url{http://angg.twu.net/2020.1-C2.html}
\end{center}
\newpage
% «exemplo-1» (to ".exemplo-1")
% (c2m201ipscp 2 "exemplo-1")
% (c2m201ipsca "exemplo-1")
% (c2q192 32 "20190906 gde aula 7: integração por partes; potências de sen e cos")
% (c2q192 34 "20190906 peq aula 7: integração por partes; potências de sen e cos")
% (c2q192 35 "20190906 peq aula 7: integração por partes; potências de sen e cos")
\def\S{\sen x}
\def\C{\cos x}
\def\D{\displaystyle}
\def\und#1#2{\underbrace{#1}_{#2}}
{\bf Exemplo 1}
%
$$\begin{array}[t]{l}
\D \intx{(\S)^5 (\C)^3} \\
\D = \;\; \intx{(\S)^5 (\C)^2 (\C)} \\
\D = \;\; \intx{(\und{\S}{s})^5 \und{(\C)^2}{1-s^2} \und{(\C)}{\frac{ds}{dx}}} \\
\D = \;\; \ints{s^5 (1-s^2)} \\
\D = \;\; \ints{s^5 - s^7} \\
\D = \;\; \frac{s^6}{6} - \frac{s^8}{8} \\
\D = \;\; \frac{(\S)^6}{6} - \frac{(\S)^8}{8} \\
\end{array}
\qquad
\begin{array}[t]{c}
\\ \\
\bmat{s = \sen x \\
\frac{ds}{dx} = \cos x \\
\sen x = s \\
(\cos x)^2 = 1 - s^2 \\
\cos x \, dx = ds
}
\end{array}
$$
\newpage
% «exemplo-1-verif» (to ".exemplo-1-verif")
% (c2m201ipscp 3 "exemplo-1-verif")
% (c2m201ipsc "exemplo-1-verif")
{\bf Exemplo 1: verificação}
$$\begin{array}[t]{l}
\D \ddx \left(\frac{(\S)^6}{6} - \frac{(\S)^7}{7}\right) \\
\D = \frac{6(\S)^5\C}{6} - \frac{8(\S)^7\C}{8} \\
\D = ((\S)^5 - (\S)^7) \C \\
\D = ((\S)^5(1-(\S)^2)) \C \\
\D = (\S)^5(\C)^2 \C \\
\D = (\S)^5(\C)^3 \\
\end{array}
$$
\newpage
% «exemplo-2» (to ".exemplo-2")
% (c2m201ipscp 4 "exemplo-2")
% (c2m201ipsc "exemplo-2")
{\bf Exemplo 2}
%
$$\begin{array}[t]{l}
\D \intx{(\S)^5 (\C)^2} \\
\D = \;\; \intx{(\S)^4 (\C)^2 \S} \\
\D = \;\; \intx{(\und{(\S)^2}{1-c^2})^2 \und{(\C)^2}{c^2} \und{(\S)}{-\frac{dc}{dx}}} \\
\D = \;\; \intc{(1-c^2)^2 c^2} \\
\D = \;\; \intc{(c^4 - 2c^2 + 1) c^2 (-1)} \\
\D = \;\; \intc{-c^6 + 2c^4 - c^2} \\
\D = \;\; \ldots \\
\end{array}
\qquad
\begin{array}[t]{c}
\\ \\
\bmat{c = \cos x \\
\frac{dc}{dx} = - \sen x \\
\cos x = c \\
(\sen x)^2 = 1 - c^2 \\
\sen x \, dx = (-1)\,dc
}
\end{array}
$$
\newpage
% «exercicio-1» (to ".exercicio-1")
% (c2m201ipscp 5 "exercicio-1")
% (c2m201ipsc "exercicio-1")
{\bf Exercício 1.}
\ssk
a) Calcule a integral do exemplo 1 -- $\D \intx{(\S)^5 (\C)^3}$ --
usando a substituição $c=\cos x$ ao invés de $s=\sen x$.
\msk
b) Teste o seu resultado.
\newpage
% «pares-e-impares» (to ".pares-e-impares")
% (c2m201ipscp 6 "pares-e-impares")
% (c2m201ipsc "pares-e-impares")
{\bf Dica importante}
\ssk
Pra integrar algo como:
%
$$ \intx {(\S)^α (\C)^β}
$$
Se tanto $α$ quanto $β$ são ímpares as duas subtituições,
$s=\S$ e $c=\C$, funcionam.
\msk
Se só um dos dois é ímpar só uma delas funciona
(não vou dizer qual).
\msk
Se tanto $α$ quanto $β$ são \ColorRed{pares} aí \ColorRed{nenhuma
das duas substituições funciona}, e a gente vai precisar
de técnicas mais avançadas que vamos ver depois.
%\printbibliography
\end{document}
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% «video» (to ".video")
% (find-ssr-links "c2m201ipcs" "2020_int_pots_sen_cos")
% (code-eevvideo "c2m201ipcs" "2020_int_pots_sen_cos")
% (code-eevlinksvideo "c2m201ipcs" "2020_int_pots_sen_cos")
% (find-c2m201ipcsvideo "0:00")
* (eepitch-shell)
* (eepitch-kill)
* (eepitch-shell)
cp -v ~/LATEX/2020-1-C2-int-pots-sen-cos.pdf /tmp/
cd /tmp/
xournalpp 2020-1-C2-int-pots-sen-cos.pdf
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% <make>
* (eepitch-shell)
* (eepitch-kill)
* (eepitch-shell)
# (find-LATEXfile "2019planar-has-1.mk")
make -f 2019.mk STEM=2020-1-C2-int-pots-sen-cos veryclean
make -f 2019.mk STEM=2020-1-C2-int-pots-sen-cos pdf
% Local Variables:
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