(3\(x\) - 2)(\(x+4\)) - (1- \(x\))(2-\(x\)) =(\(x+1\))(\(x-2\))
3\(x^2\) + 12\(x\) - 2\(x\) - 8 - (\(x+1\))(\(x-2\)) - [-(\(x-2\))](1- \(x\)) = 0
3\(x^2\) + 10\(x\) - 8 - (\(x-2\))( \(x\) + 1 - 1 + \(x\)) = 0
3\(x^2\) + 10\(x\) - 8 - (\(x-2\)). 2\(x\) = 0
3\(x^2\) + 10\(x\) - 8 - 2\(x^2\) + 4\(x\) = 0
\(x^2\) + 14\(x\) - 8 = 0
\(x^2\) + 7\(x\) + 7\(x\) + 49 - 57 = 0
\(x\)( \(x\) + 7) + 7(\(x\) + 7) = 57
(\(x+7\))(\(x\) + 7) =57
(\(x+7\))2 = 57
\(\left[{}\begin{matrix}x+7=\sqrt{57}\\x+7=-\sqrt{57}\end{matrix}\right.\)
\(\left[{}\begin{matrix}x=-7+\sqrt{57}\\x=-7-\sqrt{57}\end{matrix}\right.\)
Vậy \(x\) \(\in\) { -7 - \(\sqrt{57}\); - 7 + \(\sqrt{57}\)}