Can this integral \(\displaystyle{\int_{{0}}^{{{2}\pi}}}{\frac{{{d}\theta}}{{{\left({a}^{{2}}{{\cos}^{{2}}\theta}+{b}^{{2}}{{\sin}^{{2}}\theta}\right)}^{{\frac{{3}}{{2}}}}}}}\) be written in

Ashlynn Rhodes

Ashlynn Rhodes

Answered question

2022-03-16

Can this integral 02πdθ(a2cos2θ+b2sin2θ)32 be written in the form of a elliptic integral

Answer & Explanation

klepbroek31s

klepbroek31s

Beginner2022-03-17Added 4 answers

The elliptic integral which gives L is
L4=J(a,b)=0π2a2cos2θ+b2sin2θ,dθ
and it is clearly symmetric, J(a,b)=J(b,a). The change of variables t=btanθ gives
a2cos2+b2sin2θ=cosθa2+t2, cosθ=bb2+t2
dθ=bb2+t2dt
thus
J(a,b)=0bb2+t2dt
thus
J(a,b)=0b2a2+t2(b2+t2)32dt
Applying the same change of variables to 1/4 of your integral (that is, with integration from 0 to π2 instead of to 2π) results in
1b20b2+t2(a2+t2)32dt
which, from comparison with the above, clearly equals Jb,a(ab)2. Using the symmetry of J, and multiplying by 4, we conclude that your integral indeed equals L(ab)2

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