sec^3(x) Archives - Epsilonify Best solutions on internet! Sat, 16 Sep 2023 22:54:55 +0000 en-US hourly 1 https://wordpress.org/?v=6.4.5 https://www.epsilonify.com/wp-content/uploads/2022/09/cropped-E-M7-32x32.png sec^3(x) Archives - Epsilonify 32 32 Derivative of sec^3(x) https://www.epsilonify.com/mathematics/calculus/what-is-the-derivative-of-sec-cubed-x/ https://www.epsilonify.com/mathematics/calculus/what-is-the-derivative-of-sec-cubed-x/#respond Tue, 02 May 2023 13:00:46 +0000 https://www.epsilonify.com/?p=2269 What is the derivative of ? The derivative of is . Solution of the derivative of . Let , where and . Then to determine the derivative of , we need to apply the chain rule: It is easy to see that and we have seen here that . So we get: Substituting everything, we […]

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]]> What is the derivative of \sec^3(x)? The derivative of \sec^3(x) is 3\tan(x)\sec^3(x).

Solution of the derivative of \sec^3(x).

Let F(x) = f(g(x)) = \sec^3(x), where f(u) = u^3 and g(x) = \sec(x). Then to determine the derivative of \sec^3(x), we need to apply the chain rule: 
\begin{align*}
F'(x) = f'(g(x))g'(x).
\end{align*}
It is easy to see that f'(u) = 3u^2 and we have seen here that g'(x) = \tan(x)\sec(x). So we get: 
\begin{align*}
f'(g(x)) = f'(\sec(x)) = 3\sec^2(x) \quad \text{and} \quad g'(x) = \tan(x)\sec(x).
\end{align*}
Substituting everything, we get: 
\begin{align*}
F'(x) &= f'(g(x))g'(x) \\
&= 3\sec^2(x)\tan(x)\sec(x) \\
&= 3\tan(x)\sec^3(x).
\end{align*}

Conclusion

So, the derivative of \sec^3(x) is 3\tan(x)\sec^3(x).

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]]> https://www.epsilonify.com/mathematics/calculus/what-is-the-derivative-of-sec-cubed-x/feed/ 0 What is the integral of sec^3(x)? https://www.epsilonify.com/mathematics/calculus/what-is-the-integral-of-sec-cubed-x/ https://www.epsilonify.com/mathematics/calculus/what-is-the-integral-of-sec-cubed-x/#respond Mon, 27 Feb 2023 13:00:52 +0000 https://www.epsilonify.com/?p=2035 The integral of is . Solution. We want to determine the integral of , i.e.: Notice that we assign the integral of as , where we see later why we do this on purpose. We will now integrate by parts, so we will use the following formula: where we have the following equations: You can […]

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]]> \sec^3(x) is \frac{1}{2} \sec(x) \tan(x) + \frac{1}{2}\ln \lvert \sec(x) + \tan(x) + C.

Solution. We want to determine the integral of \sec^3(x), i.e.: 
\begin{align*}
I = \int \sec^3(x) dx.
\end{align*}
Notice that we assign the integral of \sec^3(x) as I, where we see later why we do this on purpose. We will now integrate by parts, so we will use the following formula: 
\begin{align*}
\int UdV = UV - \int VdU,
\end{align*}
where we have the following equations: 
\begin{align*}
U = \sec(x), \quad &dV = \sec^2(x)dx\\
dU = \sec(x)\tan(x)dx, \quad &V = \tan(x).
\end{align*}
You can verify yourself here for dU, and here for V. So we get the following: 
\begin{align*}
I &= \int \sec^3(x) dx \\
&= \sec(x)\tan(x) - \int \sec(x)\tan^2(x)dx.
\end{align*}
We have seen here that \tan^2(x) = \sec^2(x) - 1. So we get: 
\begin{align*}
\sec(x)\tan(x) - \int \sec(x)\tan^2(x) &= \sec(x)\tan(x) - \int \sec(x)(\sec^3(x) - 1)dx \\
&=  \sec(x)\tan(x) - \int \sec^3(x)dx  + \int \sec(x)dx \\
&=  \sec(x)\tan(x) - I + \ln \lvert \sec(x) + \tan(x) \rvert,
\end{align*}
where we have seen here the integral of \sec(x). Now we will bring I to the left-hand side, and so, we get the integral of \sec^3(x): 
\begin{align*}
I &= sec(x)\tan(x) - I + \ln \lvert \sec(x) + \tan(x) \rvert \iff \\
2I &= \sec(x)\tan(x) + \ln \lvert \sec(x) + \tan(x) \rvert \iff \\
\int \sec^3(x)dx &= \frac{1}{2} \sec(x)\tan(x) + \frac{1}{2}\ln \lvert \sec(x) + \tan(x) \rvert + C
\end{align*}

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