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Proof

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Recall integration by parts: ∫ ∫ ∫ ∫ ∫ Or (subtract ∫ from both sides): ∫ ∫ So if we are given: ∫ ( ) Let: ( ) ( ) Then: ∫ ( ) ( ) ∫ ( ) Boner city, we have to do another integration by parts run, this time let: ( ) ( ) So:
( ) ∫ ( ) ( ) ( ) ( )∫ ( ) Confusing right? We have a bit of recursion going on, we need to nip this in the bud, let’s do a little math trick, but first let’s clean this up a bit: ( ) ( ) ( )∫ ( ) ( ) ( ) ( )∫ ( ) Here’s the trick, do you see something similar to the answer we have and the problem we were tasked with? They have the same integral on both sides of the equality: ∫ ( ) ( ) ( ) ( )∫ ( ) Let’s subtract ( ) ∫ ( ) from both sides and see what we’re left with: ∫ ( ) ( )∫ ( ) ( ) ( ) ( )∫ ( ) ( ) ( ) Now let’s multiply the both sides by : ( )∫ ( ) ( ) ( ) Factor the right side by : ( )∫ ( ) ( ( ) ( )) Ah ha! We are almost there! Now let’s divide both sides by ( ) and see what we’re left with: ( ) ( ) ∫ ( ) ( ) Viola! Isn’t math beautiful?

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Proof

  • 1. Recall integration by parts: ∫ ∫ ∫ ∫ ∫ Or (subtract ∫ from both sides): ∫ ∫ So if we are given: ∫ ( ) Let: ( ) ( ) Then: ∫ ( ) ( ) ∫ ( ) Boner city, we have to do another integration by parts run, this time let: ( ) ( ) So:
  • 2. ( ) ∫ ( ) ( ) ( ) ( )∫ ( ) Confusing right? We have a bit of recursion going on, we need to nip this in the bud, let’s do a little math trick, but first let’s clean this up a bit: ( ) ( ) ( )∫ ( ) ( ) ( ) ( )∫ ( ) Here’s the trick, do you see something similar to the answer we have and the problem we were tasked with? They have the same integral on both sides of the equality: ∫ ( ) ( ) ( ) ( )∫ ( ) Let’s subtract ( ) ∫ ( ) from both sides and see what we’re left with: ∫ ( ) ( )∫ ( ) ( ) ( ) ( )∫ ( ) ( ) ( ) Now let’s multiply the both sides by : ( )∫ ( ) ( ) ( ) Factor the right side by : ( )∫ ( ) ( ( ) ( )) Ah ha! We are almost there! Now let’s divide both sides by ( ) and see what we’re left with: ( ) ( ) ∫ ( ) ( ) Viola! Isn’t math beautiful?