Q1: A classic assembly consists of 1000 systems distributed over three energy segments, which have: = 0. 91= 1 2 0.025 eV. 92 = 3 €g = 0.05 ev. 9z = 5 If you know that the assembly is in thermal equilibrium at room temperature, find the number of systems in each power segment when the assembly is in its most likely general condition.
Q1: A classic assembly consists of 1000 systems distributed over three energy segments, which have: = 0. 91= 1 2 0.025 eV. 92 = 3 €g = 0.05 ev. 9z = 5 If you know that the assembly is in thermal equilibrium at room temperature, find the number of systems in each power segment when the assembly is in its most likely general condition.
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Transcribed Image Text:Q1: A classic assembly consists of 1000 systems distributed over three energy segments,
which have:
E = 0. 9 = 1
2=0.025 eV.
92 3
€ = 0.05 ev,
93 5
If you know that the assembly is in thermal equilibrium at room temperature, find the
number of systems in each power segment when the assembly is in its most likely general
condition.
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