1-) there is a system, energy is between E and E+dE, volume V, made up of N particles The number of states that can be entered for this system is in the form N(E,V, N) = A V §NENe(B N V E) a and b are constant the system is in equilibrium att absolute temperature a-) Express the entropy of the system(S) in terms of E, V and N. b-) Calculate the internal energy of the system(E) as a function of T, V, and N c-) Find the equation of state of the system P(T, V, N). (P is the proccuro of the Custom
1-) there is a system, energy is between E and E+dE, volume V, made up of N particles The number of states that can be entered for this system is in the form N(E,V, N) = A V §NENe(B N V E) a and b are constant the system is in equilibrium att absolute temperature a-) Express the entropy of the system(S) in terms of E, V and N. b-) Calculate the internal energy of the system(E) as a function of T, V, and N c-) Find the equation of state of the system P(T, V, N). (P is the proccuro of the Custom
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Transcribed Image Text:1-)
there is a system, energy is between E and E+dE, volume V, made up of N
particles
The number of states that can be entered for this system is in the form
3
N(E,V, N) = A V §NEN¢(B N V E)
a and b are constant
the system is in equilibrium att absolute temperature
a-) Express the entropy of the system(S) in terms of E, V and N.
b-) Calculate the internal energy of the system(E) as a function of T, V, and N
c-) Find the equation of state of the system P(T, V, N). (P is the
pressure of the system)
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