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Using Mathematica (v.7) basically I want to bring an expression like this

(x + x^2 + x^3)^4


x^4 (1 + x + x^2)^4

What would be the best way to take a term like the GCD out of an expression that is raised to a power and is in factored form; then place that term outside the brackets and retain that exponent value it was raised to. It would have to know that the value is raised to a power, before taking it out. Here is my attempt.

In[28]:= example = (x + x^2 + x^3)^4

Out[28]= (x + x^2 + x^3)^4

In[37]:= gcdVar = PolynomialGCD[Sequence @@ Level[example, {2}]]

Out[37]= x

In[40]:= step1 = Map[Divide[#, gcdVar] &, example, {2}]

Out[40]= (1 + x + x^2)^4

In[55]:= step2 = Times[step1, Power[gcdVar, Last[Level[example, {1}]]]]

Out[55]= x^4 (1 + x + x^2)^4

I have been looking at all the different functions related to this area like; Collect, Factor, Expand, Simplify, Solve. I don't think any of them can produce the output I wanted. Is there a built in, more efficient, scalable and shorter way to do this possibly using pattern / form matching?

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2 Answers 2

up vote 3 down vote accepted

This does what you do quick 'n' dirty style, but in one line:

example /. Power_[Plus_[f__], k_] :> 
           (PolynomialGCD@f)^k Simplify@(Plus@f/PolynomialGCD@f)^k

This is not very robust, and you'll be better of building your own small Module that checks for things like there actually being a greatest common divisor.

EDIT: You can add some inline checking like so:

example /. Power_[Plus_[f__], k_] /; !(PolynomialGCD@f === 1) :> 
           (PolynomialGCD@f)^k Simplify@(Plus@f/PolynomialGCD@f)^k
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This answer provides more control over evaluation and each element of the equation for other things I would want to do in the future so I will pick this as the answer. TomD's answer is also good and useful. –  dbjohn Jan 4 '11 at 19:08

Factor@Expand appears to do what you want for the example given. Do you require a more general solution?

 Factor@Expand[(x + x^2 + x^3)^4]

    Out[8]= x^4 (1 + x + x^2)^4

(I am using Mathematica 7)

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Actually, Factor will do it alone, in this case. –  rcollyer Feb 16 '11 at 14:54
@ rcollyer Thanks! I missed that –  TomD Feb 17 '11 at 0:43

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