03 มิถุนายน 2014, 10:04
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บัณฑิตฟ้า
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วันที่สมัครสมาชิก: 24 ตุลาคม 2011
ข้อความ: 448
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อ้างอิง:
ข้อความเดิมเขียนโดยคุณ SixGoldsForThailand
Dear Euler-Fermat,
I would like to ask you to check the argument in red. From there, you missed a solution $f(x)=-x$. Other than that small point, your solution looks great! 
I will provide an alternative solution, which is almost the same as Euler-Fermat's solution above.
First, substitution $(x,y) \mapsto (0,y)$ gives $f(f(y))=f(f(0))f(y)+y$___(1) which shows that $f$ is injective.
Substitution $(x,y) \mapsto (x,0)$ gives $f(f(0))=f(f(x))f(0)$. Since $f$ is injective, $f(f(x))$ cannot be constant, and therefore $f(0)=0$. Using this in (1) above gives $f(f(x))=x, \forall x$.
Substitution $(x,y) \mapsto (x-f(1),1)$ shows that $\forall x, f(x)= f(1) \cdot x + 1-f(1)^2$. A fortiori, $f$ is linear. Substituting linear $f$ back in the main equation shows that $f$ can be only $f(x) \equiv x, \forall x$ or $f(x) \equiv -x,\forall x$, both of which can be easily checked to satisfy the equation.
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Thanks for searching my bug , i will correct it
I think i might create some mistake in my substitution in my sol.
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