physic.py

Created by maxime-rigotti

Created on November 30, 2021

622 Bytes

piles
capacite pile:Q=I*deltat
Q coulomb  I ampere  Deltat sec
p=U*I
energie stockee:w=p*Dt
oxydoreduction:Ox1+red2->red1+Ox2

thermique
flux thermique=surface/Dt en watt
condutivite thermique
lambda en w/m/k
resistance thermique
Rth=e/lambda

combustion
qtite matiere=masse/masse molaire
mol           kg  / g/mol
2C8H18+25O2->16CO2+6H2O

changement d'etat
solide=molecules bougent pas+ordonnees+compact
liquide=//bougent plus+moins ordonnees+compact
gazeux=//bougent bcp+desordonnees+dispersees
echange nrj
deltaE=m*l
nrj echange en j
m subissant chgmnt nrj en kg
l enthalpie changmt etat en j/kg
Q=m*c*Dt

During your visit to our site, NumWorks needs to install "cookies" or use other technologies to collect data about you in order to:

Ensure the proper functioning of the site (essential cookies); and
Track your browsing to send you personalized communications if you have created a professional account on the site and can be contacted (audience measurement cookies).

With the exception of Cookies essential to the operation of the site, NumWorks leaves you the choice: you can accept Cookies for audience measurement by clicking on the "Accept and continue" button, or refuse these Cookies by clicking on the "Continue without accepting" button or by continuing your browsing. You can update your choice at any time by clicking on the link "Manage my cookies" at the bottom of the page. For more information, please consult our cookies policy.

Accept and continue Continue without accepting