Question 1017072
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If a, b, c are odd integers, then the equation {{{ ax^2+bx+c=0 }}} has no FRACTION solution. 

I know how to prove, if it said integer solution, but to prove that theres no fraction solution, it seems a little hard for me.   

Im really sorry if its the wrong section

Thanks~!
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<pre>
Assume the equation {{{ax^2+bx+c}}} = {{{0}}} with odd integer coefficients a, b an c has the solution, 
which is a rational fraction {{{p/q}}} with integer p and q. 

We can assume that all the common divisors of p and q are just canceled in the fraction {{{p/q}}}, 
so that p and q are relatively primes integer numbers. In particular, p and q are not both multiples of 2 simultaneously.

Then substitute the fraction {{{p/q}}} into the equation.

You will get {{{a*(p/q)^2 + b*(p/q) + c}}} = {{{0}}}.

Multiply both sides by {{{q^2}}} to rid off the denominators. You will get

{{{a*p^2 + b*pq + c*q^2}}} = {{{0}}}.   (1)

Now, if p is odd, then q can not be multiple of 2, otherwise you easily get a contradiction due to equation (1).

Similarly, if q is odd, then p can not be multiple of 2, otherwise you easily get a contradiction due to equation (1).

Thus both p and q must be odd. 

Then the equation (1) has three odd addends that sum up to zero, which is impossible.

This contradiction completes the proof.
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