Comprendre la loi de Schmidt et le potentiel inelastique

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In summary, the conversation discusses the concept of Schmidt's Law and its application to crystals. It also touches on the topic of inelastic potential and how it relates to Hamiltonian perturbations. The conversation ends with a reminder to not double post and to post in English.
  • #1
joelle
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Bonsoir je voudrai savoir si c'est possible c'est quoi la loi de schmidt et plus precisemment que signifie l'expression : un crystal obeit a la loi de schmidt
De plus je voudrai savoir c'est quoi un potentiel inelastique.
Merci d'avance
 
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  • #2
joelle said:
Bonsoir je voudrai savoir si c'est possible c'est quoi la loi de schmidt et plus precisemment que signifie l'expression : un crystal obeit a la loi de schmidt
De plus je voudrai savoir c'est quoi un potentiel inelastique.
Merci d'avance
Here is a quickie translation for those who may be culturally challenged. :wink:

Good evening, I wish to know if possible, what is Schmidt's Law
and further precisely what is the meaning of the expression: "A crystal obeys Schmidt's Law"?
Further, I wish to know what is inelastic potential?
Thanks in advance.
 
Last edited:
  • #3
Ouabache said:
Here is a quickie translation for those who may be culturally challenged. :wink:
Sorry, but that didn't help. :redface:
 
  • #4
An inelastic perturbation to the Hamiltonian of the form [itex] H'=k_{1}x^{3}+k_{2}x^{4}+... [/itex],with the constants real is an example of an inelastic potential.

Daniel.
 
  • #5
joelle said:
Bonsoir je voudrai savoir si c'est possible c'est quoi la loi de schmidt et plus precisemment que signifie l'expression : un crystal obeit a la loi de schmidt
De plus je voudrai savoir c'est quoi un potentiel inelastique.
Merci d'avance
This question has been addressed here: https://www.physicsforums.com/showthread.php?t=78584

Please do not double post and please post in English!
(And welcome to PF!) :smile:
 

1. What is the law of Schmidt?

The law of Schmidt, also known as Schmidt's law or the principle of elastic similarity, states that the flow of a fluid over a solid surface is similar when the ratio of inertial forces to viscous forces is the same at two different scales.

2. How is the law of Schmidt related to potential inelasticity?

The law of Schmidt is often applied in the study of potential inelasticity, which refers to the loss of fluid kinetic energy due to friction. Understanding the relationship between these two concepts is important in fields such as fluid mechanics and aerodynamics.

3. What is the significance of the law of Schmidt and potential inelasticity?

The law of Schmidt and potential inelasticity are important concepts in the study of fluid flow and have various practical applications. They help engineers and scientists predict the behavior of fluids in different scenarios, such as in the design of airplanes or the analysis of weather patterns.

4. How is the law of Schmidt and potential inelasticity used in research?

Researchers often use the law of Schmidt and potential inelasticity in experimental studies and numerical simulations to better understand fluid flow and its effects. They may also use these concepts to develop new models and theories that can improve our understanding of fluid mechanics.

5. Are there any limitations to the law of Schmidt and potential inelasticity?

Like any scientific principle, the law of Schmidt and potential inelasticity have their limitations. For instance, they may not accurately predict the behavior of fluids in extreme conditions or in complex systems. It is important for scientists to recognize these limitations and continue to refine and improve their understanding of these concepts.

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