Fichier f00.mp (figure 6) — Modifié le 2 Février 2005 à 00 h 59
%@AUTEUR: David Nivaud
verbatimtex
%&latex
\documentclass{article}
\usepackage{palatino}
\newcommand{\vect}[1]{\overrightarrow{#1}}
\newcommand{\Vect}[1]{\overrightarrow{\strut #1}}
\begin{document}
etex
beginfig(1);
%caracterisation vectorielle d'un plan
numeric u;
pair t,r;
transform T,S;
u= 1cm;
t=(4u,0u); r=(1u,2.5u);
T = identity shifted t;
S = identity shifted r;
%on place les points du parallèlogramme représentant le plan
z0=(0u,0u);
z1 = z0 transformed T;
z2 = z0 transformed S;
z3 = z0 transformed T transformed S;
%on trace le parallelogramme
draw z0--z2;
draw z2--z3;
%on donne un effet d'epaisseur en changeant l'epaisseur du stylo
pickup pencircle scaled 2pt;
draw z0--z1;
draw z1--z3;
%on rechange l'epaisseur du stylo
pickup pencircle scaled 0.5pt;
%on indique le nom du plan
label.urt(btex $P$ etex, z0+(0.1u,0u));
%les vecteurs
z4=(u,u); z5=(3u,0.5u);z6=(2u,1.8u);
draw z4-0.2*(z5-z4)--z5+0.2*(z5-z4);
draw z4-0.2*(z6-z4)--z6+0.2*(z6-z4);
z7= z4 shifted ((0.7*(z5-z4))+(0.9*(z6-z4)));
drawarrow z4--z7;
z8 = z4 shifted (0.7*(z5-z4));
z9 = z4 shifted (0.9*(z6-z4));
draw z7--z8 dashed evenly;
draw z7--z9 dashed evenly;
z10 = z4 shifted (0.3*(z5-z4));
z11 = z4 shifted (0.5*(z6-z4));
drawarrow z4--z10;
drawarrow z4--z11;
label.bot(btex $A$ etex, z4-0.15*(z5-z4));
label.bot(btex $B$ etex, z10);
label.lft(btex $C$ etex, z11);
label.rt(btex $M$ etex, z7);
label.bot(btex $x$ etex, z8);
label.lft(btex $y$ etex, z9);
label.rt(btex $y\Vect{AC}$ etex, 0.7[z7,z8]);
label.top(btex $x\Vect{AB}$ etex, 0.2[z7,z9]);
endfig;
beginfig(2);
%caracterisation vectorielle d'un plan
numeric u;
pair t,r;
transform T,S;
u= 1cm;
t=(4u,0u); r=(1u,2.5u);
T = identity shifted t;
S = identity shifted r;
%on place les points du parallèlogramme représentant le plan
z0=(0u,0u);
z1 = z0 transformed T;
z2 = z0 transformed S;
z3 = z0 transformed T transformed S;
%on trace le parallelogramme
draw z0--z2;
draw z2--z3;
%on donne un effet d'epaisseur en changeant l'epaisseur du stylo
pickup pencircle scaled 2pt;
draw z0--z1;
draw z1--z3;
%on rechange l'epaisseur du stylo
pickup pencircle scaled 0.5pt;
%on indique le nom du plan
label.urt(btex $P$ etex, z0+(0.1u,0u));
%les vecteurs
z4=(u,u); z5=(3u,0.5u);z6=(2u,1.8u);
draw z4-0.2*(z5-z4)--z5+0.2*(z5-z4);
draw z4-0.2*(z6-z4)--z6+0.2*(z6-z4);
z10 = z4 shifted (0.5*(z5-z4));
z11 = z4 shifted (0.7*(z6-z4));
drawarrow z4--z10;
drawarrow z4--z11;
label.bot(btex $A$ etex, z4-0.15*(z5-z4));
label.bot(btex $\vect{u}$ etex, 0.5[z10,z4]);
label.lft(btex $\vect{v}$ etex, 0.5[z11,z4]);
endfig;
beginfig(3);
%caracterisation vectorielle d'un plan
numeric u;
pair t,r;
transform T,S;
u= 1cm;
t=(4u,0u); r=(1u,2.5u);
T = identity shifted t;
S = identity shifted r;
%on place les points du parallelogramme représentant le plan
z0=(0u,0u);
z1 = z0 transformed T;
z2 = z0 transformed S;
z3 = z0 transformed T transformed S;
%on trace le parallelogramme
draw z0--z2;
draw z2--z3;
%on donne un effet d'epaisseur en changeant l'epaisseur du stylo
pickup pencircle scaled 2pt;
draw z0--z1;
draw z1--z3;
%on rechange l'epaisseur du stylo
pickup pencircle scaled 0.5pt;
%on indique le nom du plan
label.urt(btex $P$ etex, z0+(0.1u,0u));
%les vecteurs
z4=(u,u); z5=(3u,0.5u);z6=(2u,1.8u);
z7= z4 shifted ((0.7*(z5-z4))+(0.9*(z6-z4)));
drawarrow z4--z7;
z8 = z4 shifted (0.7*(z5-z4));
z9 = z4 shifted (0.9*(z6-z4));
drawarrow z4--z8;
drawarrow z4--z9;
label.bot(btex $O$ etex, z4-0.15*(z5-z4));
label.rt(btex $C$ etex, z7);
label.bot(btex $A$ etex, z8);
label.top(btex $B$ etex, z9);
label.bot(btex $\vect{u}$ etex, 0.5[z8,z4]);
label.lft(btex $\vect{v}$ etex, 0.5[z9,z4]);
label.top(btex $\vect{w}$ etex, 0.5[z7,z4]);
endfig;
beginfig(4);
% parallelisme plan et droite
numeric u;
pair t,r;
transform T,S;
u= 1cm;
t=(4u,0u); r=(1u,2u);
T = identity shifted t;
S = identity shifted r;
%plan
z0=(0u,0u);
z1 = z0 transformed T;
z2 = z0 transformed S;
z3 = z0 transformed T transformed S;
draw z0--z2;
draw z2--z3;
pickup pencircle scaled 2pt;
draw z0--z1;
draw z1--z3;
pickup pencircle scaled 0.5pt;
label.urt(btex $P$ etex, z0+(0.1u,0u));
%droite dans le plan
z4 = (1u,.5u);
z5 = (4u,1u);
z10= z4 shifted (0.5*(z5-z4));
z11= z4 shifted (0.9*(z5-z4));
label.top(btex $\vect{u}$ etex, 0.5[z10,z11]);
dotlabel.lft(btex $A$ etex, z10);
label.rt(btex $B$ etex, z11);
drawarrow z10--z11;
%la droite en dehors du plan
z6 = (1u,2.5u);
z7 = z6 shifted z5-z4;
draw z6--z7;
z8= z6 shifted (0.2*(z5-z4));
z9= z6 shifted (0.6*(z5-z4));
drawarrow z8--z9;
dotlabel(btex $$ etex, z8);
label.top(btex $d$ etex, z6);
label.top(btex $\vect{u}$ etex, 0.5[z8,z9]);
endfig;
beginfig(5);
% parallelisme plan et droite
numeric u;
pair t,r;
transform T,S;
u= 1cm;
t=(4u,0u); r=(1u,2u);
T = identity shifted t;
S = identity shifted r;
%plan
z0=(0u,0u);
z1 = z0 transformed T;
z2 = z0 transformed S;
z3 = z0 transformed T transformed S;
draw z0--z2;
draw z2--z3;
pickup pencircle scaled 2pt;
draw z0--z1;
draw z1--z3;
pickup pencircle scaled 0.5pt;
label.urt(btex $P$ etex, z0+(0.1u,0u));
%droite dans le plan
z4 = (1u,.5u);
z5 = (4u,1u);
z10= z4 shifted (0.3*(z5-z4));
z11= z4 shifted (0.7*(z5-z4));
drawarrow z10--z11;
dotlabel(btex $$ etex, z10);
label.top(btex $\vect{u}$ etex, 0.5[z10,z11]);
draw z4--z5;
label.top(btex $d'$ etex, z5);
%la droite en dehors du plan
z6 = (1u,2.5u);
z7 = z6 shifted z5-z4;
draw z6--z7;
z8= z6 shifted (0.4*(z5-z4));
z9= z6 shifted (0.8*(z5-z4));
drawarrow z8--z9;
dotlabel(btex $$ etex, z8);
label.top(btex $d$ etex, z7);
label.top(btex $\vect{u}$ etex, 0.5[z8,z9]);
draw z10--z8 dashed evenly;
draw z11--z9 dashed evenly;
drawarrow (0.5u,0.5u)--(0.6u,1u);
drawarrow (0.5u,0.5u)--(1.5u,0.1u);
dotlabel(btex $$ etex, (0.5u,0.5u));
label.rt(btex $\vect{v}$ etex, (0.6u,1u));
label.top(btex $\vect{w}$ etex,(1.5u,0.1u));
endfig;
beginfig(6);
% plans paralleles a l'aide de droites secantes
numeric u;
pair t,r;
transform T,S;
u= 1cm;
t=(4u,0u); r=(1u,2u);
T = identity shifted t;
S = identity shifted r;
%premier plan P
z0=(0u,0u);
z1 = z0 transformed T;
z2 = z0 transformed S;
z3 = z0 transformed T transformed S;
draw z0--z2;
draw z2--z3;
pickup pencircle scaled 2pt;
draw z0--z1;
draw z1--z3;
pickup pencircle scaled 0.5pt;
label.urt(btex $P$ etex, z0+(0.1u,0u));
%droites secantes
z4 = (2u,1u); z5 =(3.8u,1.5u);drawarrow z4--z5;
z6 = (2u,1u);z7=(3.6u,0.4u);drawarrow z6--z7;
label.top(btex $\vect{u}$ etex, 0.5[z4,z5]);
label.bot(btex $\vect{v}$ etex, 0.5[z6,z7]);
%label.lft(btex $A$ etex, z4);
%label.rt(btex $B$ etex, z5);
%label.rt(btex $C$ etex, z7);
%deuxieme plan Q
z10=(0u,-2.5u);
z11 = z10 transformed T;
z12 = z10 transformed S;
z13 = z10 transformed T transformed S;
draw z10--z12;
draw z12--z13;
pickup pencircle scaled 2pt;
draw z10--z11;
draw z11--z13;
pickup pencircle scaled 0.5pt;
label.urt(btex $Q$ etex, z10+(0.1u,0u));
%droites secantes
z14 = (2u,-1.5u); z15 =(3.8u,-1.5u);drawarrow z14--z15;
z16 = (2u,-1.5u);z17=(1u,-2u);drawarrow z16--z17;
label.top(btex $\vect{u}'$ etex, 0.5[z14,z15]);
label.bot(btex $\vect{v}'$ etex, 0.5[z16,z17]);
%label.top(btex $A'$ etex, z14);
%label.rt(btex $B'$ etex, z15);
%label.bot(btex $C'$ etex, z17);
endfig;
beginfig(7);
%repere cartesien dans l'espace
numeric u;
pair t,s,q;
u = 1cm;
%definitions de l'origine et des vecteurs de base
t=(2u,0u);
s=(0u,2u);
q=(-1u,-1.5u);
z0 = (0,0);
z1= z0 shifted t;
z2 = z0 shifted s;
z3 = z0 shifted q;
%trace de l'origine et des vecteurs de base
dotlabel.lft(btex $O$ etex, z0);
label.bot(btex $\vect{\jmath}$ etex, z1);
label.lft(btex $\vect{\imath}$ etex, z3);
label.lft(btex $\vect{k}$ etex, z2);
%trace des axes
drawarrow z0--z1 ;
drawarrow z0--z2 ;
drawarrow z0--z3 ;
endfig;
beginfig(8);
% coordonnées d'un point dans un repere de l'espace
numeric u;
pair t,s,q;
u = 1cm;
%definitions de l'origine et des vecteurs de base
t=(1u,0u);
s=(0u,1u);
q=(-0.5u,-0.5u);
z0 = (0,0);
z1= z0 shifted t;
z2 = z0 shifted s;
z3 = z0 shifted q;
%trace de l'origine et des vecteurs de base
dotlabel.lft(btex $O$ etex, z0);
label.bot(btex $\vect{\jmath}$ etex, z1);
label.lft(btex $\vect{\imath}$ etex, z3);
label.lft(btex $\vect{k}$ etex, z2);
%trace des axes
drawarrow z0--z1 ;
drawarrow z0--z2 ;
drawarrow z0--z3 ;
%construction du point M
z4 = z0 shifted 4t;
z5 = z0 shifted 4s;
z6 = z0 shifted 4q;
drawarrow z0--z4 ;
drawarrow z0--z5 ;
drawarrow z0--z6 ;
z7= 3.5t+2.5q;
label.bot(btex $M'$ etex, z7);
z8 = 3.5t ;
z9 = 2.5q ;
draw z7--z8 dashed evenly;
draw z7--z9 dashed evenly;
label.top(btex $y$ etex, z8);
label.lft(btex $x$ etex, z9);
z10 = z7 shifted 3s;
draw z7--z10 dashed evenly;
label.rt(btex $M$ etex, z10);
z11 = z10 shifted z0-z7;
draw z11--z10 dashed evenly;
label.lft(btex $z$ etex, z11);
drawarrow z0--z10;
drawarrow z0--z7;
endfig;
beginfig(9);
%repere cartesien orthonormal dans l'espace
numeric u;
pair t,s,q;
u = 1cm;
%definitions de l'origine et des vecteurs de base
t=(2u,0u);
s=(0u,2u);
q=(-1u,-1.5u);
z0 = (0,0);
z1= z0 shifted t;
z2 = z0 shifted s;
z3 = z0 shifted q;
%trace de l'origine et des vecteurs de base
dotlabel.lft(btex $O$ etex, z0);
label.bot(btex $\vect{\jmath}$ etex, z1);
label.lft(btex $\vect{\imath}$ etex, z3);
label.lft(btex $\vect{k}$ etex, z2);
%trace des axes
drawarrow z0--z1 ;
drawarrow z0--z2 ;
drawarrow z0--z3 ;
%on marque les angles droits
z4=0.1[z0,z1];z5=0.1[z0,z2];
z6= z5 shifted z4-z0;
draw z4--z6;
draw z5--z6;
z14=0.1[z0,z1];z15=0.1[z0,z3];
z16= z15 shifted z14-z0;
draw z14--z16;
draw z15--z16;
z24=0.1[z0,z2];z25=0.1[z0,z3];
z26= z25 shifted z24-z0;
draw z24--z26;
draw z25--z26;
endfig;
beginfig(10);
%illustration du calcul de distance dans un repere orthonormal
numeric u;
pair t,s,q;
u = 1cm;
%definitions de l'origine et des vecteurs de base
t=(1u,0u);
s=(0u,1u);
q=(-0.5u,-0.5u);
%construction de l'origine et des vecteurs de base
z0 = (0u,0u);
z1= z0 shifted t;
z2 = z0 shifted s;
z3 = z0 shifted q;
dotlabel.lft(btex $O$ etex, z0);
label.bot(btex $\vect{\jmath}$ etex, z1);
label.lft(btex $\vect{\imath}$ etex, z3);
label.lft(btex $\vect{k}$ etex, z2);
%trace des axes
drawarrow z0--z1 ;
drawarrow z0--z2 ;
drawarrow z0--z3 ;
%construction du point M et de ses projetes
z4 = z0 shifted 4t;
z5 = z0 shifted 4s;
z6 = z0 shifted 4q;
drawarrow z0--z4 ;
drawarrow z0--z5 ;
drawarrow z0--z6 ;
z7= 3.5t+2.5q;
label.bot(btex $m$ etex, z7);
z8 = 3.5t ;
z9 = 2.5q ;
draw z7--z8 dashed evenly;
draw z7--z9 dashed evenly;
label.top(btex $b$ etex, z8);
label.lft(btex $a$ etex, z9);
z10 = z7 shifted 3s;
draw z7--z10 dashed evenly;
label.rt(btex $M$ etex, z10);
z11 = z10 shifted z0-z7;
draw z11--z10 dashed evenly;
label.lft(btex $c$ etex, z11);
drawarrow z0--z10;
drawarrow z0--z7;
%on marque l'angle droit en m
z12=0.1[z7,z10];z13=0.1[z7,z0];
z14= z13 shifted z12-z7;
draw z12--z14;
draw z13--z14;
endfig;
beginfig(11);
% parallelisme plan et droite
numeric u;
pair t,r;
transform T,S;
u= 1cm;
t=(4u,0u); r=(1u,2u);
T = identity shifted t;
S = identity shifted r;
%plan
z0=(0u,0u);
z1 = z0 transformed T;
z2 = z0 transformed S;
z3 = z0 transformed T transformed S;
draw z0--z2;
draw z2--z3;
pickup pencircle scaled 2pt;
draw z0--z1;
draw z1--z3;
pickup pencircle scaled 0.5pt;
label.urt(btex $P$ etex, z0+(0.1u,0u));
%droite dans le plan
z4 = (1u,.5u);
z5 = (4u,1u);
z10= z4 shifted (0.5*(z5-z4));
z11= z4 shifted (0.9*(z5-z4));
label.bot(btex $\vect{u}$ etex, 0.5[z10,z11]);
dotlabel.top(btex $A$ etex, z10);
label.top(btex $B$ etex, z11);
drawarrow z10--z11;
draw z4--z5;
z12= z4 shifted (0.1*(z5-z4));
dotlabel.top(btex $M$ etex, z12);
endfig;
end