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I have found this pretty identity involving cube roots, first stated by Ramanujan:

$$ \sqrt{m(4m-8n)^{\frac13} + n(4m+n)^{\frac13}} = (4m+n)^{\frac23} + (4(m-2n)(4m+n))^{\frac13}- (2(m-2n))^{\frac23}. $$

So I ask if there is any method to create similar identities?

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    Probably. The best route would be to find out how Ramanujan did that one and then generalize.2011-09-04
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    it was proposed in the JIMS (indian journal) . but i didn't think that ramanujan had give a proof for it .2011-09-04
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    @anon, if any of us could find out how Ramanujan created his mathematics, we wouldn't be spending our time at m.se.2011-11-25
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    @PrigminSmith, homework? Really?2011-11-25
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    My (superficial) understanding is that Ramanujan had a much greater willingness than we do to pursue formal manipulations like this for months or years at a time without any immediate payoff in sight; eventually, he developed a superhuman talent for it. I think you'd have a hard time publishing something like the equation you give today without also suggesting a pretty direct application, which may be short-sighted on the part of modern mathematics -- if Ramanujan hadn't studied this sort of thing, the eventual applications to analytic number theory never would have emerged.2011-11-25
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    Incidentally, I believe that they've found a notebook of Gauss's (?) where he apparently spent several months using the cubic and quartic formulas to get complicated expressions that were equivalent to rational numbers, presumably in hopes of identifying an algorithm for simplifying such expressions.2011-11-25

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