Stack Exchange network consists of 183 Q&A communities including Stack Overflow, the largest, most trusted online community for developers to learn, share their knowledge, and build their careers.
The desired bound is correct (and in fact you get a fairly explicit value for $\epsilon$ of anything below $4\pi$) . A proof can be found in these beautiful notes of a course by Brian White (itsit's Theorem 8.12).
The desired bound is correct (and in fact you get a fairly explicit value for $\epsilon$ of anything below $4\pi$) . A proof can be found in these beautiful notes of a course by Brian White (its Theorem 8.12).
The desired bound is correct (and in fact you get a fairly explicit value for $\epsilon$ of anything below $4\pi$) . A proof can be found in these beautiful notes of a course by Brian White (it's Theorem 8.12).
The desired bound is correct (and in fact you get a fairly explicit value for $\epsilon$ of justanything below $4\pi$) . A proof can be found in these beautiful notes of a course by Brian White (its Theorem 8.12).
The desired bound is correct (and in fact you get a fairly explicit value for $\epsilon$ of just below $4\pi$) . A proof can be found in these beautiful notes of a course by Brian White (its Theorem 8.12).
The desired bound is correct (and in fact you get a fairly explicit value for $\epsilon$ of anything below $4\pi$) . A proof can be found in these beautiful notes of a course by Brian White (its Theorem 8.12).
The desired bound is correct (and in fact you get a fairly explicit value for $\epsilon$ of just below $4\pi$) . A proof can be found in these beautiful notes of a course by Brian White (its Theorem 8.12).
