\begin{parts} \vfill \part Faire les calculs suivants en détaillant les étapes (penser à simplifier les fractions quand c'est possible). \begin{multicols}{4} \begin{subparts} \Block{set e = Expression.random("{a} / {b} + {c} / {b}", ["{b} > 1"])} \subpart $B = \Var{e}$ \begin{solution} \begin{eqnarray*} \Var{e.simplify().explain() | calculus(name = "B")} \end{eqnarray*} \end{solution} \Block{set e = Expression.random("{a} / {b} + {c} / {d}", ["{b} > 1", "{d} > 1", "gcd({b},{d})==1"])} \subpart $D = \Var{e}$ \begin{solution} \begin{eqnarray*} \Var{e.simplify().explain() | calculus(name = "D")} \end{eqnarray*} \end{solution} \Block{set e = Expression.random("{a} / {b} * {c}", ["{b} > 1", "{a} > 0", "{c} > 1", "{c} != {b}"])} \subpart $E = \Var{e}$ \begin{solution} \begin{eqnarray*} \Var{e.simplify().explain() | calculus(name = "E")} \end{eqnarray*} \end{solution} \Block{set e = Expression.random("{a} / {b} * {c} / {d}", ["{b} > 1", "{a} > 0", "{c} > 0", "{d} > 1"])} \subpart $F = \Var{e}$ \begin{solution} \begin{eqnarray*} \Var{e.simplify().explain() | calculus(name = "F")} \end{eqnarray*} \end{solution} \end{subparts} \end{multicols} \part Développer puis réduire les expressions suivantes \begin{multicols}{2} \begin{subparts} \Block{set e = Expression.random("_*(_*x + _)")} \subpart $A = \Var{e}$ \begin{solution} \begin{eqnarray*} \Var{e.simplify().explain() | calculus(name = "A")} \end{eqnarray*} \end{solution} \Block{set e = Expression.random("_*x(_*x + _)")} \subpart $B = \Var{e}$ \begin{solution} \begin{eqnarray*} \Var{e.simplify().explain() | calculus(name = "B")} \end{eqnarray*} \end{solution} \Block{set e = Expression.random("_*(_*x + _) + _")} \subpart $A = \Var{e}$ \begin{solution} \begin{eqnarray*} \Var{e.simplify().explain() | calculus(name = "C")} \end{eqnarray*} \end{solution} \Block{set e = Expression.random("_*x+_*x(_*x + _)+_")} \subpart $B = \Var{e}$ \begin{solution} \begin{eqnarray*} \Var{e.simplify().explain() | calculus(name = "D")} \end{eqnarray*} \end{solution} \end{subparts} \end{multicols} \part Résoudre les équations suivantes. \begin{multicols}{4} \begin{subparts} \Block{set e = Equation.random("x + _ = _", val_min = 1, val_max = 100)} \subpart $\Var{e}$ \begin{solution} \begin{align*} \Block{for i in e.solve()} \Var{i[0]} &= \Var{i[1]} \\ \Block{endfor} \end{align*} \end{solution} \Block{set e = Equation.random("y - _ = _", val_min = 1, val_max = 100)} \subpart $\Var{e}$ \begin{solution} \begin{align*} \Block{for i in e.solve()} \Var{i[0]} &= \Var{i[1]} \\ \Block{endfor} \end{align*} \end{solution} \Block{set e = Equation.random("_x = _")} \subpart $\Var{e}$ \begin{solution} \begin{align*} \Block{for i in e.solve()} \Var{i[0]} &= \Var{i[1]} \\ \Block{endfor} \end{align*} \end{solution} \Block{set e = Equation.random("_x = _/_", val_min = 2, val_max = 20)} \subpart $\Var{e}$ \begin{solution} \begin{align*} \Block{for i in e.solve()} \Var{i[0]} &= \Var{i[1]} \\ \Block{endfor} \end{align*} \end{solution} \end{subparts} \end{multicols} \end{parts}