Solving Exponent Laws: (p^2q+ pq^3)^3 / p^3q^4

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The discussion revolves around simplifying the expression (p^2q + pq^3)^3 / p^3q^4. The correct approach involves factoring out pq from the numerator, leading to the expression (pq(p + q^2))^3 / p^3q^4. This simplifies to (p + q^2)^3 / q after applying the division rule for exponents. The original poster expresses confusion over their previous attempts, realizing that factoring made the problem clearer. The conversation highlights the importance of factoring in solving exponent laws effectively.
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Hi, i am having a little trouble with a couple of math questions, i thought i was doing them right but cannot get the answer. Ok the questions are:

(p^2q+ pq^3)^3 / p^3q^4

Now I do not know what to do, the answer i was told is suppose to be:

(p+q^2)^3 / q

I just don't know how to get that, if someone could walk me through this one question it would be appreciated.
 
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you start with:

\frac{(p^2q+pq^3)^3}{p^3q^4}

Factor out pq in the numerator:

\frac{(pq(p+q^2))^3}{p^3q^4}

same as:

\frac{(pq)^3(p+q^2)^3}{p^3q^4}

\frac{p^3q^3(p+q^2)^3}{p^3q^4}

apply division rule for exponents:

\frac{(p+q^2)^3}{q}
 
Oh my god, thank you, i completely understand know. I had sort of done what you had but instead did not factor and so it just kept getting more complicated and confusing me. Thank you so much.
 
What did you do? expand it?, if you had you will get the same just with the numerador expanded, but it will be more work.
 

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