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Difference between revisions of "1980 AHSME Problems/Problem 2"

(Solution 2)
(Solution 2)
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First note that given a polynomial <math>P(x)</math> and a polynomial <math>Q(x)</math> <math>deg(P(x))^n = ndeg(P(x))</math> and that <math>deg(P(x)Q(x)) = deg(P(x))+deg(Q(x))</math>.
 
First note that given a polynomial <math>P(x)</math> and a polynomial <math>Q(x)</math> <math>deg(P(x))^n = ndeg(P(x))</math> and that <math>deg(P(x)Q(x)) = deg(P(x))+deg(Q(x))</math>.
 +
 +
  
 
We let <math>x^2+1=P(x)</math> and <math>x^3+1 = Q(x)</math>.
 
We let <math>x^2+1=P(x)</math> and <math>x^3+1 = Q(x)</math>.

Revision as of 20:39, 11 December 2014

Problem

The degree of $(x^2+1)^4 (x^3+1)^3$ as a polynomial in $x$ is

$\text{(A)} \ 5 \qquad \text{(B)} \ 7 \qquad \text{(C)} \ 12 \qquad \text{(D)} \ 17 \qquad \text{(E)} \ 72$

Solution 1

It becomes $(x^{8}+...)(x^{9}+...)$ with 8 being the degree of the first factor and 9 being the degree of the second factor, making the degree of the whole thing 17, or $\boxed{(D)}$

Solution 2

First note that given a polynomial $P(x)$ and a polynomial $Q(x)$ $deg(P(x))^n = ndeg(P(x))$ and that $deg(P(x)Q(x)) = deg(P(x))+deg(Q(x))$.


We let $x^2+1=P(x)$ and $x^3+1 = Q(x)$.

Hence $deg(P(x)) = 2$ and $deg(Q(x)) = 3$

So $deg(P(x))^4) = 4\cdot2 = 8$ and $deg(Q(x)^3) = 3\cdot3 = 9$


Now we let $P(x)^4 = R(x)$ and $Q(x)^3 = S(x)$

We want to find $deg(R(x)S(x)) = deg(R(x))+deg(S(x)) = 9+8 = 17$.

So the answer is (D) 17.

      • Solution 2 by mihirb

See also

1980 AHSME (ProblemsAnswer KeyResources)
Preceded by
Problem 1 		Followed by
Problem 3
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All AHSME Problems and Solutions

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