Problem of the Week

Updated at Oct 21, 2013 11:59 AM

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Apr 22, 2024

To get more practice in calculus, we brought you this problem of the week:

How can we solve for the integral of \(\cos^{3}x\)?

Check out the solution below!

\[\int \cos^{3}x \, dx\]

Use Pythagorean Identities: \(\cos^{2}x=1-\sin^{2}x\).

\[\int (1-\sin^{2}x)\cos{x} \, dx\]

Use Integration by Substitution.

Let \(u=\sin{x}\), \(du=\cos{x} \, dx\)

Using \(u\) and \(du\) above, rewrite \(\int (1-\sin^{2}x)\cos{x} \, dx\).

\[\int 1-{u}^{2} \, du\]

Use Power Rule: \(\int {x}^{n} \, dx=\frac{{x}^{n+1}}{n+1}+C\).

\[u-\frac{{u}^{3}}{3}\]

Substitute \(u=\sin{x}\) back into the original integral.

\[\sin{x}-\frac{\sin^{3}x}{3}\]

Add constant.

\[\sin{x}-\frac{\sin^{3}x}{3}+C\]

Done