Integration by parts of (e^x)(cos x)

TL;DR

Integration by parts is used to find the antiderivative of e^x*cos(x) by assigning one function as f(x) and the other as g'(x), and then applying the integration by parts formula.

Transcript

let's now see if we can use integration by parts to take the antiderivative of e to the X cosine of X DX and this one's an interesting one you'll see why in a few in a few minutes because here if I take the derivative of either of these it doesn't get appreciably more simple or appreciably more complicated if I were to take its antiderivative the d... Read More

Key Insights

• 🥳 Integration by parts is a useful technique in calculus to find the antiderivative of certain functions.
• 🥳 Assigning functions and applying the integration by parts formula helps simplify the integration process.
• 🥳 Multiple iterations of integration by parts can be applied to solve for the antiderivative.

Summary & Key Takeaways

• Integration by parts is a technique used to find the antiderivative of certain functions.

• In this case, the antiderivative of e^x*cos(x) is found by assigning e^x as f(x) and cos(x) as g'(x).

• After applying the integration by parts formula, the antiderivative is expressed as a combination of e^x, sin(x), and cos(x).