physiquechimie.py

Created by corentintonon

Created on January 31, 2024

796 Bytes

Ec(J)=1/2 m(kg)v(m/s)**2
Epp=m(kg)g.z(m)
Em=1/2mv**2+mgz
ΔEc=Ec(B)-Ec(A)=ΣWab(F)
pour calculer force de frottements:
ΔEc=Ec(B)-Ec(A)=Wab(F)+Wab(f)
ΔEc=1/2m(Va)**2-1/2m(Vb)**2=mgh

WAB(F)=F.AB=F(N)*AB(m)*cos α
WAB(F):travail exprimé en Joules (J). 
F:valeur de la force en Newton (N). 
AB:longueur du déplacement (m) 
α:angle entre F et AB
Wab(P)=mgz

Wab(F)>0 0°<α<90° travail moteur
Wab(F)=0 α=90°
Wab(F)<0 90°<α=<180°

travail force de frottement :
Wab(f)=f.AB.cos(180)=-f(N).AB(m)

la variation de l'energie mécanique
est égale à la somme des travaux des 
forces non-conservatives :
ΔEm=ΣWab(f non-conservative)

quand il y a non conservation il y a 
présence de forces dissipatives

vitesse a t=... : tangente a la courbe 
Yb-Ya/Xb-Xa

Vi=(Gi-1Gi+1)/2t
ai=ΔVi/2t

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