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I am unable to factorize (x^4 + 324). It should be very easy but it is not clicking me.

Thanks in Advance

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closed as off-topic by High Performance Mark, Robert Longson, madth3, jh314, Radim Köhler Aug 12 '13 at 17:33

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Why that should be very easy? It does not seems to be an algebraic formula, and factorization is an NP-full problem –  Alma Do Aug 12 '13 at 13:37
This is off-topic. Neither the question nor the answers posted so far show any indications of being programming related. –  High Performance Mark Aug 12 '13 at 14:10
Factor[x^4 + 324, Extension -> I] –  Rojo Aug 12 '13 at 18:01
There's a Mathematica specific StackExchange site (mathematica.stackexchange.com) if you are interested –  Rojo Aug 12 '13 at 18:02

2 Answers 2

You are right, it is very simple: Factor[x^4 + 324]

x^4 + 324 = (x^2 - 6x + 18)(x^2 + 6x + 18)

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You can go further as shown in the link you provided –  Nabil Kadimi Aug 12 '13 at 13:54
Sure, but you have exit the integers and the reals, and the question specified no domain. –  Joni Aug 12 '13 at 13:54
(a²-b²) = (a+b)(a-b) and √i = (√2/2) + (√2/2)i (and negative too) - btw, I didn't touch maths for ages... –  Nabil Kadimi Aug 12 '13 at 14:00
My point is, x^2 ± 6x + 18 are irreducible in ℤ[x], ℚ[x] and ℝ[x]. If the OP was interested in factorization in some other ring it should have been specified in the question. –  Joni Aug 12 '13 at 14:06
It's easiest to see this as x^4+324 = x^4 + 36x^2 + 324 - 36x^2 = (x^2+18)^2 - 36x^2 and then factoring it as a difference of two perfect squares: ((x^2+18)-6x)((x^2+18)+6x). –  Teepeemm Aug 12 '13 at 14:13

It's a difference of two squares if you're factoring over the complex numbers:

(x^2 - 18i)(x^2 + 18i)

As Joni pointed out in another answer, it actually is possible to factor this over the real numbers as well. I'm sure that is the answer you were looking for.

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?! google.com/search?q=sqrt%28i%29 –  Nabil Kadimi Aug 12 '13 at 13:46

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