La pétanque de Newton(1) Enseignem ent expérim ental
La pétanque de Newton (1)
Partie2
>/@Julien BARTHES
G1N3CAB/D37443:78=<
RÉSUMÉ
Dans un précédent article -., nous avons tenté une démonstration expérimentale
du transport par le son des informations de conservation d’énergie cinétique et de quan-
tité de mouvement. Nous montrerons dans cet article comment évoluent déplacement et
surpression lors de l’impact d’une boule du pendule de Newton sur les autres afin de
justifier l’article précédent.
INTRODUCTION
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;3<B 3B 23 :\N<3@573 17<NB7?C3 -. #< =0B73<B /:=@A C<
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C<307::3K:/D7B3AA3 @3>/@B/<B/D31C<3D7B3AA3
/11=;>/5<N32323CF07::3A K :/ D7B3AA3 =;
;3<B:3A07::3AA3B@/<A;3BB3<B3::3A:3A7<4=@;/B7=<A23
?C/<B7BN 23 ;=CD3;3<B 3B 2\N<3@573 17<NB7?C3 =;
;3<B 16=7A7AA3<B3::3A :/ A=:CB7=< 23A N?C/B7=<A 23 1=<A3@D/B7=< "=CA B3<B3@=<A 23
@N>=<2@3 K 13A ?C3AB7=<A 3< NBC27/<B :/ >@=>/5/B7=< 23A =<23A /1=CAB7?C3A 2/<A :3
>3<2C:3
V0
–/3V0
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)=:C7::3B=TB&3>B3;0@3 C:73<%'&
Enseignement expérimental
U N I O N D E S P R O F E S S E U R S D E P H Y S I Q U E E T D E C H I M I E
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Figure 1 : $3<2C:323"3EB=<
1. Modélisation du pendule
1.1. Un modèle unidimensionnel
Figure 2 : !=2O:32C>3<2C:3
73<?C3:3A0=C:3A2\C<>3<2C:323"3EB=<A=73<BA>6N@7?C3A<=CA:3A1=<A72N@3
@=<A1C07?C3A/47<23:7;7B3@:3>@=0:O;3KC<3A3C:327;3<A7=<X3BB3/>>@=F7;/B7=<
2@/AB7?C3<327;7<C3>/A:/1=;>@N63<A7=<2C>6N<=;O<33B:3:31B3C@>/AA7=<<N>=C@@/
B=C8=C@AB3<B3@23@NA=C2@3 <C;N@7?C3;3<B :3A N?C/B7=<A AC7D/<B3AAC@C<3 A>6O@3 3<
CB7:7A/<B:3;=2O:3233@BH-.
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7<A7:=@A?C3B=CB3A:3A0=C:3AA=<B/C1=<B/1B:3AC<3A23A/CB@3A=<=0B73<B/7<A7C<
AGABO;31=;>/1B?C3:\=<AC>>=A3@/ 6=;=5O<3 <=CA ;=2N:7A3@=<A :3 >3<2C:31=;>:3B
>/@C<30/@@36=;=5O<323:=<5C3C@ a
"=CA<=B3@=<A :32N>:/13;3<B>/@@/>>=@BK:\N?C7:70@32\C<>3B7BN:N;3<B23
:/0/@@31=<AB7BCN323A17<?1C03A3B<=CA7<BN@3AA3@=<AK:/>@=>/5/B7=<23:\=<23@NAC:
B/<B2C>@3;73@16=1C<7?C3;3<B
Figure 3 : "=B/B7=<23:/2N4=@;/B7=<2CAGABO;3
1.2. Conditions initiales
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2N8KC<32N4=@;/B7=<23:\3<A3;0:37<A77:3AB>=AA70:32\3F3@13@C<34=@137<47;3>=C@
(,)x tp
/>NB/<?C323"3EB=< Le Bup <U
E N S E I G N E M E N T E X P É R I M E N TA L
:3D3@:/0=C:3235/C1633B5/@23@:\3<A3;0:323A17<?07::3A3<1=<B/1B
Figure 4 : $7<13;3<B23A47:A
"=CA3<2N2C7A=<A?C\/C;=;3<B23:\7;>/1B:/>@3;7O@307::3>=AAO23C<2N1/
:/53D3@A:/5/C163>/@@/>>=@BK:\N?C7:70@33B?C3B=CAA3A>:/<A/B=;7?C3A>=AAO23<B
C<3D7B3AA327@75N3D3@A:/2@=7B3
&C@<=B@3;=2O:3230/@@36=;=5O<3<=CAAC>>=A3@=<A/:=@A?C3B=CA:3AN:N;3<BA
2C>@3;73@1C03=<BC<2N>:/13;3<B<N5/B74<=BN[ e/@07B@/7@3;3<B>3B7B32N1/:/53
<\3AB>/A<N13AA/7@32/<AC<>@3;73@B3;>A>=C@:/@NA=:CB7=<2C2N>:/13;3<B<@3D/<163
A/>@NA3<13<=CA>3@;3BB@/234/7@3/>>/@/QB@3D7AC3::3;3<BV :\=<232316=1 W
"=CA<=B3@=<Au:/D7B3AA32C>@3;73@1C03/C;=;3<B23:\7;>/1B"=CA>=A3@=<A
2=<1N5/:3Ku:/D7B3AA323B=CA:3AN:N;3<BA2C>@3;73@1C037<A7:3A1=<27B7=<A7<7
B7/:3AA=<B:3AAC7D/<B3A
/ V >@3AA7=< W =C 1=<B@/7<B3 3AB B3::3 ?C3 =S E3AB :3 ;=2C:3
2\+=C<5
Figure 5 : =<27B7=<A7<7B7/:3A
1.3. Équation d’évolution
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(, ) –0
0
xxa
0si
sinon
11
pf
=
)
(, )xuxa
t00
0
si
sinon
2
2
11
p=
)
S
FEx2
2
vp
==
–
xct
10
2
2
22
2
2
2
2
2pp
=
)=:C7::3B=TB&3>B3;0@3 C:73<%'&
Enseignement expérimental
U N I O N D E S P R O F E S S E U R S D E P H Y S I Q U E E T D E C H I M I E
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=SE3AB:3;=2C:32\+=C<53Br:/;/AA3D=:C;7?C32C;/BN@7/C
1.4. Conditions aux limites et forme de la solution.
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AN>/@/0:3A>=CD/<BA32N1=;>=A3@A=CA:/4=@;32\C<3AN@73-.
3A1=<27B7=<A/CF:7;7B3A23<=B@3AGABO;3A=<B27B3AV 1=<27B7=<A/CF:7;7B3A:70@3A W
:32N>:/13;3<B23A3FB@N;7BNA2C0/@@3/C<\3AB>/A1=<B@/7<B>/@:\/7@3FBN@73C@317A3
B@/2C7B>/@:/1=<B7<C7BN23:/>@3AA7=<K16/?C33FB@N;7BN-.7<A7>=C@B=CBt
\N?C/B7=< 1=<2C7BKC<31=<27B7=<AC@:3A1=3447173<BA2C2ND3:=>>3;3<B
>@=>=AN1723AACA
=;;3:/1=<27B7=</C:7;7B33ABD/:/0:3>=C@B=CBt=<3<2N2C7B?C3
\N?C/B7=< 1=<2C7BK:/1=<27B7=<AC7D/<B3
=;;3:/1=<27B7=</C:7;7B33ABD/:/0:3>=C@B=CBt=<3<2N2C7B?C3>=C@=0B3<7@C<3
A=:CB7=<<=<<C::3:3D31B3C@2\=<232=7BDN@7473@
A=7B
cE
t
=
(,) cos cos cos
sin
sin
cos sin sin
xt a bt a kx t b kx
ckx
t
td kx t
n
nn nnn
nn
n
nnn n
00
1
p~~
~~
=+ + +
++
3
=
^^ ^^
^^ ^^
hh hh
hh hh
/
(,) (,)
xtxLt00
2
2
2
2p p
==
(,)
xt00
2
2p=
(,) cos sin
xtctdt000
nnnn
(
2
2p~~=+=
^^h h
(,)
xtcd000
nn
(
2
2p===
(,) 0
xLt
2
2p=
(,) cos cos cos sin
xLt a kL t b kL t0 0
nn nnn n
(
2
2p~~=+=
^^ ^^hhhh
(,) cos
xLt kL0 0
n
(
2
2p==
^h
kL
n
n
r
=
/>NB/<?C323"3EB=< Le Bup <U
E N S E I G N E M E N T E X P É R I M E N TA L
2. RÉSULTATS ET DISCUSSION
2.1. Forme de la solution
/2NB3@;7</B7=<23A1=3447173<BA23:/AN@7323=C@73@K:\/72323A1=<27B7=<A7<7B7/:3A
2=<<3-.
3B
A=7B
2.2. Visualisation de la solution et commentaires
3A 5@/>67?C3A =<B NBN @N/:7ANA K :\/723 2C :=57173: Maple 3B Illustrator /D31 :3A
D/:3C@AAC7D/<B3A
,–aLxt dx L
a1L
00
pf= =
^h
#
(,) –cos sinaLxt kx dx nka
12
nn
L
n
0
pr
f
==
^^h h
#
(,)cos sinbLxt kx kadx n
u1
nn n
L
n
0
~r
==
^^h h
#
sinbnc
uL ka
2
nn
22
r
=
^h
10 ; 1 ; 1000 ; 5 ;ucax1L
–
S
5
f=== ==
)=:C7::3B=TB&3>B3;0@3 C:73<%'&
Enseignement expérimental
U N I O N D E S P R O F E S S E U R S D E P H Y S I Q U E E T D E C H I M I E
N>:/13;3<B
(,)x tp
)7B3AA3
(,)/xtup
&C@>@3AA7=<
–( , )
pxdx
dxt
1
S
p
=
Zt :\=<23 23 16=1 K :\7<AB/<B2C1=<B/1B A3 B@/2C7B >/@ C<3AC@>@3AA7=<<N5/B7D3
:=1/:7AN33<B@3:/>@3;7O@33B:/A31=<230=C:3
6
7
8
1
/
8
100%
