Trigonométrie - STI2D/STL

Propriétés du sinus et cosinus : Équations trigonométriques

Exercice 1 : Factoriser en posant X=cos(x) puis résoudre

Déterminer l'ensemble des solutions sur \( \left]- \pi ; \pi \right] \) de :\[ 4\left(\operatorname{cos}{\left(x \right)}\right)^{2} + 4 -10\operatorname{cos}{\left(x \right)} = 0 \]On donnera la réponse sous la forme d'un ensemble, par exemple \( \{1; 3\} \) ou \( [2; 4[ \).

Exercice 2 : Résoudre cos(x)=cos(a) sur ]-pi,pi], placer les solutions sur le cercle trigonométrique, resoudre dans R

Donner l'ensemble des solutions sur \(\left]-\pi;\pi\right]\) de l'équation suivante : \[ \operatorname{cos}{\left (x \right )} = \operatorname{cos}{\left (- \dfrac{\pi }{2} \right )} \] On donnera la réponse sous la forme d'un ensemble, par exemple \(\{1; 3\}\) ou \([2; 4[\).

Placer ces solutions sur le cercle trigonométrique.

{"init": {"range": [[-1.2, 1.2], [-1.2, 1.2]], "scale": [250, 250]}, "line": [[[-1.2, 0.0], [1.2, 0.0], {"subtype": "segment", "arrow-end": "classic-wide-long"}], [[0.0, -1.2], [0.0, 1.2], {"subtype": "segment", "arrow-end": "classic-wide-long"}], [[0.7071067811865476, 0.7071067811865476], [0.7071067811865476, -0.7071067811865476], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[0.7071067811865476, 0.7071067811865476], [-0.7071067811865476, 0.7071067811865476], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[0.7071067811865476, -0.7071067811865476], [-0.7071067811865476, -0.7071067811865476], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[-0.7071067811865476, 0.7071067811865476], [-0.7071067811865476, -0.7071067811865476], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[0.8660254037844386, 0.5], [0.8660254037844386, -0.5], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[0.8660254037844386, 0.5], [-0.8660254037844386, 0.5], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[0.8660254037844386, -0.5], [-0.8660254037844386, -0.5], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[-0.8660254037844386, 0.5], [-0.8660254037844386, -0.5], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[0.5, 0.8660254037844386], [0.5, -0.8660254037844386], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[0.5, 0.8660254037844386], [-0.5, 0.8660254037844386], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[0.5, -0.8660254037844386], [-0.5, -0.8660254037844386], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}], [[-0.5, 0.8660254037844386], [-0.5, -0.8660254037844386], {"subtype": "segment", "stroke": "#6495ed", "stroke-dasharray": "-.."}]], "circle": [[[0.0, 0.0], 1.0, {}], [[0.7071067811865476, 0.0], 0.01, {"fill": "black"}], [[-0.7071067811865476, 0.0], 0.01, {"fill": "black"}], [[0.0, 0.7071067811865476], 0.01, {"fill": "black"}], [[0.0, -0.7071067811865476], 0.01, {"fill": "black"}], [[0.8660254037844386, 0.0], 0.01, {"fill": "black"}], [[-0.8660254037844386, 0.0], 0.01, {"fill": "black"}], [[0.0, 0.5], 0.01, {"fill": "black"}], [[0.0, -0.5], 0.01, {"fill": "black"}], [[0.5, 0.0], 0.01, {"fill": "black"}], [[-0.5, 0.0], 0.01, {"fill": "black"}], [[0.0, 0.8660254037844386], 0.01, {"fill": "black"}], [[0.0, -0.8660254037844386], 0.01, {"fill": "black"}]], "label": [[[0.7071067811865476, 0.0], "\\dfrac{\\sqrt{2}}{2}", "above right", {}], [[0.8660254037844386, 0.0], "\\dfrac{\\sqrt{3}}{2}", "above right", {}], [[0.5, 0.0], "\\dfrac{1}{2}", "above right", {}], [[-0.7071067811865476, 0.0], "- \\dfrac{\\sqrt{2}}{2}", "above left", {}], [[-0.8660254037844386, 0.0], "- \\dfrac{\\sqrt{3}}{2}", "above left", {}], [[-0.5, 0.0], "- \\dfrac{1}{2}", "above left", {}], [[0.0, 0.7071067811865476], "\\dfrac{\\sqrt{2}}{2}", "right", {}], [[0.0, 0.5], "\\dfrac{1}{2}", "right", {}], [[0.0, 0.8660254037844386], "\\dfrac{\\sqrt{3}}{2}", "right", {}], [[0.0, -0.7071067811865476], "- \\dfrac{\\sqrt{2}}{2}", "right", {}], [[0.0, -0.5], "- \\dfrac{1}{2}", "right", {}], [[0.0, -0.8660254037844386], "- \\dfrac{\\sqrt{3}}{2}", "right", {}]], "drawing_options": {"tools": ["point"], "style": {"point": {"radius": 0.05, "snapToGrid": false, "snapToList": [[0.0, 0.0], [0.0, -0.5], [0.0, -0.7071067811865476], [0.0, -0.8660254037844386], [0.0, -1.0], [0.0, 0.0], [0.0, 0.5], [0.0, 0.7071067811865476], [0.0, 0.8660254037844386], [0.0, 1.0], [-0.5, 0.0], [-0.5, -0.5], [-0.5, -0.7071067811865476], [-0.5, -0.8660254037844386], [-0.5, 0.0], [-0.5, 0.5], [-0.5, 0.7071067811865476], [-0.5, 0.8660254037844386], [-0.7071067811865476, 0.0], [-0.7071067811865476, -0.5], [-0.7071067811865476, -0.7071067811865476], [-0.7071067811865476, 0.0], [-0.7071067811865476, 0.5], [-0.7071067811865476, 0.7071067811865476], [-0.8660254037844386, 0.0], [-0.8660254037844386, -0.5], [-0.8660254037844386, 0.0], [-0.8660254037844386, 0.5], [-1.0, 0.0], [-1.0, 0.0], [0.0, 0.0], [0.0, -0.5], [0.0, -0.7071067811865476], [0.0, -0.8660254037844386], [0.0, -1.0], [0.0, 0.0], [0.0, 0.5], [0.0, 0.7071067811865476], [0.0, 0.8660254037844386], [0.0, 1.0], [0.5, 0.0], [0.5, -0.5], [0.5, -0.7071067811865476], [0.5, -0.8660254037844386], [0.5, 0.0], [0.5, 0.5], [0.5, 0.7071067811865476], [0.5, 0.8660254037844386], [0.7071067811865476, 0.0], [0.7071067811865476, -0.5], [0.7071067811865476, -0.7071067811865476], [0.7071067811865476, 0.0], [0.7071067811865476, 0.5], [0.7071067811865476, 0.7071067811865476], [0.8660254037844386, 0.0], [0.8660254037844386, -0.5], [0.8660254037844386, 0.0], [0.8660254037844386, 0.5], [1.0, 0.0], [1.0, 0.0]]}}}}

En déduire l'ensemble des solutions sur \( \mathbb{R} \).
On donnera la réponse sous la forme d'un ensemble infini, en respectant la même syntaxe que l'exemple suivant : \(\left\{2k\pi; \pi + 2k\pi, k \in \mathbb{Z}\right\}\)

Exercice 3 : Résoudre cos(x) = 1/2 dans R (notation d'ensemble difficile)

Résoudre dans \(\mathbb{R}\) l'équation suivante : \[\operatorname{cos}{\left (x \right )} = 0\] On donnera la réponse sous la forme d'un ensemble infini, en respectant la même syntaxe que l'exemple suivant : \(\left\{2k\pi; \pi + 2k\pi, k \in \mathbb{Z}\right\}\)

Exercice 4 : cos(x) = 3/2 dans intervalle ]2pi; 5pi]

Quel est l'ensemble des solutions sur \(\left]-4\pi ; \pi \right]\) de \[\operatorname{cos}{\left (x \right )} = \dfrac{\sqrt{2}}{2}\] (On donnera la réponse sous la forme d'un ensemble, par exemple {1; 3} ou [2; 4[)

Exercice 5 : cos(x) = cos(1/2)

Quel est l'ensemble des solutions sur \(\left] -\pi; \pi \right]\) de \[\operatorname{sin}\left(x\right) = \operatorname{sin}\left(\frac{2\pi }{3}\right)\] (On donnera la réponse sous la forme d'un ensemble, par exemple {1; 3} ou [2; 4[)

Revenir au choix du niveau