7.) (Based on Neaman 3.42) - Consider the energy levels shown in the figure. Let T = 300K. E₁ EF 1.12 cV E₂ (a) If E₁ - Ep = 0.30 eV, determine the probability that an energy state at E = E₁ is occupied by an electron and the probability that an energy state at E = E2₂ is empty. (b) Answer the same questions as the previous part, assuming EF - E₂ = 0.4 eV. Energy
7.) (Based on Neaman 3.42) - Consider the energy levels shown in the figure. Let T = 300K. E₁ EF 1.12 cV E₂ (a) If E₁ - Ep = 0.30 eV, determine the probability that an energy state at E = E₁ is occupied by an electron and the probability that an energy state at E = E2₂ is empty. (b) Answer the same questions as the previous part, assuming EF - E₂ = 0.4 eV. Energy
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Can you please do part b showing all the steps on how you got all the values and by using the fermi energy level equation.
![7.) (Based on Neaman 3.42) - Consider the energy levels
shown in the figure. Let T = 300K.
E₁
EF
1.12 eV
- E2
(a) If E₁ - Ep = 0.30 eV, determine the probability that an energy state at E = E₁
is occupied by an electron and the probability that an energy state at E = E₂ is
empty.
(b) Answer the same questions as the previous part, assuming EF - E2 = 0.4 eV.
Energy](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F7ed257c7-1abb-4569-a5f6-7733c0232f0b%2F2eeba87e-126d-4a84-a7c6-2a5a7991a9e4%2F45c2jlk_processed.png&w=3840&q=75)
Transcribed Image Text:7.) (Based on Neaman 3.42) - Consider the energy levels
shown in the figure. Let T = 300K.
E₁
EF
1.12 eV
- E2
(a) If E₁ - Ep = 0.30 eV, determine the probability that an energy state at E = E₁
is occupied by an electron and the probability that an energy state at E = E₂ is
empty.
(b) Answer the same questions as the previous part, assuming EF - E2 = 0.4 eV.
Energy
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