Fermi energy and ratio of the number of occupied levels at an energy

AI Thread Summary
The Fermi energy for copper is established at 7.0 eV, but additional information is required to calculate it accurately, such as the density of carriers. To determine the ratio of occupied levels at 8.5 eV compared to the Fermi energy, the Fermi function and density of states must be utilized. Participants in the discussion emphasize the need for equations and relevant parameters to solve the problems effectively. The calculations demonstrate that at room temperature, the conduction electron gas behaves as a quantum gas of indistinguishable particles. Understanding these concepts is crucial for solving the posed homework questions.
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Homework Statement



a) Calculate the Fermi energy for copper.

b) Calculate the ratio of the number of occupied levels at an energy of 8.5 eV to the number occupied levels at the Fermi energy at room temperature.

c) Based on your answer to a) and b) above, show that at room temperature, the conduction electron gas must be treated as a quantum gas of indistinguishable particles


The Attempt at a Solution



I know that the fermi energy for copper is 7.0ev but have no idea how it was set up. please help me set this problem up with equations or whatever i need to solve it
 
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You will need to supply more info to solve (a). You will need to supply equations for the Fermi energy.
 
that was all i was given to work with
 
Well you will need more info to calculate the Fermi energy. Even if you assumed it to be a perfect fermi sea, you would need the density of carriers then.
 
well if i know the fermi energy for copper is 7ev then how do i set up and solve for b?
 
Look up the Fermi function. You will need that for (b) as well as the density of states.
 
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