\begin{align*}|x-2| = |2x+1| &\iff \begin{cases} x-2=2x+1 \\ x-2=-2x-1 \end{cases} \\ &\iff S_{1} = \left\{-3, \frac{1}{3}\right\}\end{align*}

\begin{align*}|x-2| < 5 &\iff -5 < x-2 < 5 \\ &\iff -3 < x < 7 \\ &\iff S_{2} = [-3, 7] \end{align*}

\begin{align*}|x+3| > 2 &\iff \begin{cases} x+3>2 \\ x+3<-2 \end{cases} \\ &\iff S_{3} = ]-\infty,-5[ \cup ]-1, +\infty[ \end{align*}

\begin{align*}|3x+1| \geq |2x+4| &\iff (3x+1)^2 \geq (2x+4)^2 \\ &\iff (3x+1)^2 - (2x+4)^2 \geq 0 \\ &\iff (x-3)(5x+5) \geq 0 \\ &\iff S_{4} = ]-\infty,-1] \cup [3,+\infty[ \end{align*}

\(\sqrt{5-x}=2-x\)

CE : \( 5-x \geq 0 \iff x\leq 5\)

CR : \( 2-x \geq 0 \iff x\leq 2\)

d'où : \( x\in ]-\infty;2]\)

\[ \begin{aligned} 5-x=(2-x)^2 &\iff x^2-3x-1=0 \\ &\iff \begin{cases}x_1 = \frac{3-\sqrt{13}}{2}\in]-\infty;2] \\ x_2 = \frac{3+\sqrt{13}}{2}\notin]-\infty;2] \end{cases}\\ & S=\left\lbrace\frac{3-\sqrt{13}}{2}\right\rbrace \end{aligned} \]

\(4\sqrt{x^2-4}=4-x\)