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The quantities <math>u</math> and <math>v</math> have the following product representations which define them as [[Holomorphic function|holomorphic functions]] in the whole upper half-plane:
:<math>u=\sqrt{2}e^{p\pi i\tau/8}\prod_{k=1}^\infty \frac{1+e^{2kp\pi i\tau}}{1+e^{(2k-1)p\pi i\tau}},\quad v=\sqrt{2}e^{\pi i\tau/8}\prod_{k=1}^\infty \frac{1+e^{2k\pi i\tau}}{1+e^{(2k-1)\pi i\tau}}.</math>
Since <math>\lambda(i)=1/2</math>, the modular equations can be used to give [[Algebraic number|algebraic values]] of <math>\lambda(pi)</math> for any prime <math>p</math>.<ref group="note">
:<math>\lambda (ni)=\frac{1}{2^n}\prod_{k=1}^{n-1} \left(1-\operatorname{sl}^2\frac{k\varpi}{n}\right)^2</math>
where <math>\operatorname{sl}</math> is the [[Lemniscate elliptic functions|lemniscate sine]] and <math>\varpi</math> is the [[Lemniscate elliptic functions#Lemniscate constant|lemniscate constant]].
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