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Author(s) Philippe Delsarte, Manon Oreins
Deadline No deadline
Submission limit No limitation
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Algèbre - Q14

Décomposer en facteurs, le plus finement possible :


Question 1:
a22ab+b21
$\frac{\square}{\square}$$\sqrt{\square}$$\sqrt[3]{\square}$3$\sqrt[\square]{\square}$$\int_{\square}^{\square}$$\square^2$2$\square_2$2$\left(\square\right)$()
$\times$×$\div$÷$\pm$±$\pi$π$\infty$$\varnothing$$\ne$$\ge$$\le$$>$>$<$<$\cup$$\cap$
$\angle$$\parallel$$\perp$$\triangle$$\parallelogram$
Question 2:
a4+5a2+4
$\frac{\square}{\square}$$\sqrt{\square}$$\sqrt[3]{\square}$3$\sqrt[\square]{\square}$$\int_{\square}^{\square}$$\square^2$2$\square_2$2$\left(\square\right)$()
$\times$×$\div$÷$\pm$±$\pi$π$\infty$$\varnothing$$\ne$$\ge$$\le$$>$>$<$<$\cup$$\cap$
$\angle$$\parallel$$\perp$$\triangle$$\parallelogram$
Question 3:
x6y6
$\frac{\square}{\square}$$\sqrt{\square}$$\sqrt[3]{\square}$3$\sqrt[\square]{\square}$$\int_{\square}^{\square}$$\square^2$2$\square_2$2$\left(\square\right)$()
$\times$×$\div$÷$\pm$±$\pi$π$\infty$$\varnothing$$\ne$$\ge$$\le$$>$>$<$<$\cup$$\cap$
$\angle$$\parallel$$\perp$$\triangle$$\parallelogram$
Question 4:
a2b2+x2y22(axby)
$\frac{\square}{\square}$$\sqrt{\square}$$\sqrt[3]{\square}$3$\sqrt[\square]{\square}$$\int_{\square}^{\square}$$\square^2$2$\square_2$2$\left(\square\right)$()
$\times$×$\div$÷$\pm$±$\pi$π$\infty$$\varnothing$$\ne$$\ge$$\le$$>$>$<$<$\cup$$\cap$
$\angle$$\parallel$$\perp$$\triangle$$\parallelogram$
Question 5:
4x4+y4+3x2y2
$\frac{\square}{\square}$$\sqrt{\square}$$\sqrt[3]{\square}$3$\sqrt[\square]{\square}$$\int_{\square}^{\square}$$\square^2$2$\square_2$2$\left(\square\right)$()
$\times$×$\div$÷$\pm$±$\pi$π$\infty$$\varnothing$$\ne$$\ge$$\le$$>$>$<$<$\cup$$\cap$
$\angle$$\parallel$$\perp$$\triangle$$\parallelogram$
Question 6:
x84x62x5+8x3+x24
$\frac{\square}{\square}$$\sqrt{\square}$$\sqrt[3]{\square}$3$\sqrt[\square]{\square}$$\int_{\square}^{\square}$$\square^2$2$\square_2$2$\left(\square\right)$()
$\times$×$\div$÷$\pm$±$\pi$π$\infty$$\varnothing$$\ne$$\ge$$\le$$>$>$<$<$\cup$$\cap$
$\angle$$\parallel$$\perp$$\triangle$$\parallelogram$