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Luukas.2

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To start, for Q 17...

Put x = p / q into the second equation given and eliminate fractions. You should get that where a, b, p, and q are all integers. Expressing this as , what can we deduce about a, recalling that p and q share no common factors other than 1 and -1? Use the same approach for the other result. Then, consider what this means for the original equation (*).
 

Luukas.2

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I was asked to expand on my comments with a more detailed answer, so here goes:

Part (a)

Now, is clearly a factor of the RHS of statement (1), and so must also be a factor of . However, with and being coprime (and so sharing no factors other than , it follows that either or is a factor of . In either case, divides .

Similarly, is clearly a factor of the RHS of statement (2), and so must also be a factor of . However, with and being coprime (and so sharing no factors other than , it follows that either or is a factor of . In either case, divides .

The equation (*) is the same equation with and . For this equation to have a rational root requires divides and divides or that they are . In other words, the only possible rational roots of (*) are . However:


Hence, the equation (*) has no rational roots.

Part (b)

In fact, since (as that would make the root being tested rational, which is impossible from part (a)), we have actually shown that , and also that .

Testing will yield using these results, confirming that it must also be a root.

Knowing that two of the roots are and and setting the third root to , it follows that


but this makes the third root rational, which is impossible by part (a), and so there can be no root of the form .
 

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