John Wallis was English by the way mate.

After finding a question on yahoo answers, I started to try and figure this one out. It took me about an hour, but I achieved in getting the same answer. I learned Calculus when I was 12 (16 now). I've been addicted ever since.

Very cool. Try doing it with complex numbers; the derivation is MUCH simpler.

$I_n = \int \sin nx = \Im \int e^{i n x} = ...$

The analyticity of sin, cos and exp guarantee that doing it is OK.

Im[e^inx]

=Im[cos(nx)+isin(nx)]

=sin(nx)

Integrating this isn't the same as integrating (sin(x))^n. Or is there something I am missing?

You're right, I got the formula wrong.

What I should have said was to substitute the identity

sin(x) = exp(ix) - exp(-ix) / 2 i

and use the binomial theorem to expand it out, then integrate termwise.

Yes, that seems much easier. :)

I think Wallis was actually English, not American. Cool video though.

you the man dony. how old are you and what college did you attend? thanks!

Hey,

I'm 22 years old. The college I attend to is confidential at the moment.

Thanks for your interest in my videos.

i love calculus.

Thanks a lot! You are very smart Dony!